化学与材料科学学院

（以下信息源于科研管理系统）

学术成果：

论文

[1] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[2] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[3] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[4] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[5] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[6] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[7] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[8] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[9] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[10] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[11] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[12] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[13] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[14] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[15] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[16] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[17] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[18] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[19] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[20] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[21] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[22] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[23] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[24] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[25] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[26] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[27] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[28] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[29] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[30] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[31] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[32] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[33] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[34] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[35] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[36] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[37] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[38] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[39] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[40] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[41] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[42] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[43] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[44] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[45] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[46] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[47] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[48] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[49] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[50] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[51] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[52] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[53] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[54] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[55] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[56] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[57] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[58] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[59] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[60] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[61] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[62] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[63] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[64] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[65] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[66] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[67] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[68] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[69] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[70] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[71] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[72] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[73] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[74] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[75] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[76] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[77] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[78] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[79] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[80] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[81] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[82] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[83] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[84] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[85] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[86] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[87] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[88] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[89] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[90] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[91] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[92] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[93] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[94] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[95] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[96] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[97] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[98] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[99] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[100] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[101] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[102] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[103] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[104] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[105] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[106] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[107] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[108] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[109] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[110] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[111] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[112] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[113] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[114] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[115] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[116] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[117] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[118] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[119] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[120] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
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[476] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[477] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[478] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
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[480] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[481] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[482] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[483] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[484] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[485] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[486] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[487] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[488] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[489] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[490] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[491] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
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[493] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[494] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[495] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[496] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[497] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[498] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[499] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[500] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[501] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[502] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[503] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[504] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[505] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[506] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[507] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[508] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[509] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[510] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[511] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[512] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[513] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[514] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[515] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[516] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[517] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[518] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[519] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[520] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[521] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[522] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[523] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[524] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[525] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[526] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[527] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[528] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[529] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[530] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[531] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[532] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[533] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[534] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[535] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[536] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[537] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[538] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[539] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[540] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[541] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[542] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[543] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[544] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[545] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[546] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[547] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[548] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[549] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
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[551] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[552] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
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[554] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[555] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[556] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[557] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[558] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[559] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[560] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[561] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[562] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[563] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[564] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[565] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[566] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[567] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[568] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[569] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[570] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[571] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[572] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[573] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
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[575] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[576] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[577] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[578] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
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[580] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[581] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
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[585] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
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[587] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
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[589] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[590] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
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[592] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
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[690] 任宇晴,卞振锋. Engineering palladium nanocrystals boosting C−C coupling by photocatalysis. APPLIED CATALYSIS B-ENVIRONMENTAL,2023,324(-):122264.
[691] 陈瑶,卞振锋. Photocatalytic Dissolution of Precious Metals by TiO2 through Photogenerated Free Radicals. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2022,61(50):e202213640.
[692] 陈瑶,卞振锋. Selective recovery of precious metals through photocatalysis. Nature Sustainability,2021,4(4):618-626.
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[705] 陈瑶,卞振锋. Precious metal catalyst recycling through photocatalytic dissolution. GREEN CHEMISTRY,2023,25(-):7518-7523.
[706] 陈香,卞振锋. Photocatalytic Free Radical-Controlled Synthesis of High-Performance Single-Atom Catalysts. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2023,135(45):e202312734.
[707] 乔倩瑜,卞振锋. Surface modification of phosphate ion to promote photocatalytic recovery of precious metals. CHINESE CHEMICAL LETTERS,2023,34(2):107394.
[708] 黄玲,卞振锋. Sustainable electrochemical gold dissolution process based on triboelectric nanogenerator. Nano Energy,2023,113(-):108531.
[709] 王军,卞振锋. Subsurface Engineering Induced Fermi Level De-pinning in Metal Oxide Semiconductors for Photoelectrochemical Water Splitting. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2022,62(9):e202217026.
[710] 安璐,王程斌,Qunfeng Feng,Zhenmin Xu,Qiwei Tian,Wei Chai,杨仕平,卞振锋. A flexible copper sulfide composite membrane with tunable plasmonic resonance absorption for near-infrared light-driven seawater desalination. Environmental Science: Advances,2022,1(x):110-120.
[711] 许振民,卞振锋. Enhancing photocatalytic performance of NH2-UIO66 by defective structural engineering. Transactions of Tianjin University,2021,27(2):147-154.
[712] 许振民,卞振锋. Recent Developments on Gas‐Phase Volatile Organic Compounds Abatement Based on Photocatalysis. Advanced Energy and Sustainability Research,2022,1(1):2200105.
[713] 陈瑶,卞振锋. Precious metal recovery. Joule,2021,5(12):3097-3115.
[714] 许正明,卞振锋. Photocatalytic Methane Conversion. 物理化学学报,2019,36(3):1907013-1907024.
[715] 刘辉,卞振锋. Self-cleaning triboelectric nanogenerator based on TiO2 photocatalysis. Nano Energy,2020,70(70):104499.
[716] 张宇,卞振锋. Photoelectrochemical sensing of dopamine using gold-TiO2 nanocomposites and visible-light illumination. MICROCHIMICA ACTA,2019,186(6):1-8.
[717] 方梦圆,卞振锋. CuO nanosheet as a recyclable Fenton-like catalyst prepared from simulated CuĲII) waste effluents by alkaline H2O2 reaction. Environmental Science-Nano,2018,6(1):105-114.
[718] 陈瑶,卞振锋. Piezo-promoted the generation of reactive oxygen species and the photodegradation of organic pollutants. APPLIED CATALYSIS B-ENVIRONMENTAL,2019,258(258):118024.
[719] 许振民,卞振锋. Ordered mesoporous Fe/TiO2 with light enhanced photo-Fenton activity. CHINESE JOURNAL OF CATALYSIS,2019,40(5):631-637.
[720] 陈苗,卞振锋. Achieving high-performance nitrate electrocatalysis with PdCu nanoparticles confined in nitrogen-doped carbon coralline. NANOSCALE,2018,10(10):19023–19030.
[721] 凌丽丽,卞振锋. Synthesis of TiO 2 mesocrystal film with enhanced photocatalytic activity. CHINESE JOURNAL OF CATALYSIS,2018,39(4):639–645.
[722] 冯亚伟,卞振锋. Self-Powered Electrostatic Filter with Enhanced Photocatalytic Degradation of Formaldehyde Based on Built-in Triboelectric Nanogenerators. ACS NANO,2017,11(11):12411−12418.
[723] 卞振锋,刘龙飞. Fluid eddy induced piezo-promoted photodegradation of organic dye pollutants in wastewater on ZnO nanorod arrays/3D Ni foam. MATERIALS TODAY,2017,20(9):501-506.
[724] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[725] 李欣茹,卞振锋. TiO2 mesocrystal with exposed (001) facets and CdS quantum dots as an active visible photocatalyst for selective oxidation reactions. APPLIED CATALYSIS B-ENVIRONMENTAL,2016,187(187):115-121.
[726] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[727] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[728] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[729] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[730] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[731] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[732] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[733] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[734] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[735] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[736] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[737] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[738] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[739] 刘丽,卞振锋. Improved Degradation Efficiency of Levofloxacin by a Self-Powered Electrochemical System with Pulsed Direct-Current. ACS Nano,2021,15(15):5478−5485.
[740] 冯亚伟,卞振锋. Charge separation and interfacial selectivity induced by synergistic effect of ferroelectricity and piezoelectricity on PbTiO3 monocrystalline nanoplates. Nano Energy,2020,73(73):104768.
[741] 张亚晰,卞振锋. The enhanced photoreduction of Cr(VI) to Cr(III) using carbon dots coupled TiO2 mesocrystals. APPLIED CATALYSIS B-ENVIRONMENTAL,2017,226(226):213-219.
[742] 卞振锋,冯亚伟. Engineering spherical lead zirconate titanate to explore the essence of piezo-catalysis. NANO ENERGY,2017,40(40):481–486.
[743] 李雅丽,卞振锋. Photocatalytic reduction behavior of hexavalent chromium onhydroxyl modified titanium dioxide. APPLIED CATALYSIS B-ENVIRONMENTAL,2017,206(206):293-299.
[744] 曹锋雷,卞振锋. Fast synthesis of anatase TiO2 single crystals by a facile solid-state method. RESEARCH ON CHEMICAL INTERMEDIATES,2016,42(42):5975–5981.
[745] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[746] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[747] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[748] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[749] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[750] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[751] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[752] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[753] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[754] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[755] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[756] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[757] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[758] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[759] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[760] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[761] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[762] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[763] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[764] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[765] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
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[767] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[768] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
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[770] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[771] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[772] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[773] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[774] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[775] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[776] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[777] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[778] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[779] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[780] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[781] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[782] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[783] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[784] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[785] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[786] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[787] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[788] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[789] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[790] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[791] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[792] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[793] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[794] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[795] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[796] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[797] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[798] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[799] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[800] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[801] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[802] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[803] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[804] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[805] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[806] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[807] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[808] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[809] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[810] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[811] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[812] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[813] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[814] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[815] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[816] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[817] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[818] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[819] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[820] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[821] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[822] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[823] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[824] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[825] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[826] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[827] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[828] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[829] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[830] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[831] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[832] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[833] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[834] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[835] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[836] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[837] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[838] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[839] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[840] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[841] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[842] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[843] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[844] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[845] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[846] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[847] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[848] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[849] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[850] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[851] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[852] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[853] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[854] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[855] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[856] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[857] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[858] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[859] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[860] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[861] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[862] 韩宇,卞振锋. [Mo3S13]2− modified TiO2 coating on non-woven fabric for efficient photocatalytic mineralization of acetone. APPLIED CATALYSIS B-ENVIRONMENTAL,2018,245(245):190-196.
[863] 凌丽丽,卞振锋. Microwave induced surface enhanced pollutant adsorption and photocatalytic degradation on Ag/TiO2. APPLIED SURFACE SCIENCE,2019,483(483):772-778.
[864] 徐梦娇,卞振锋,陈瑶,秦江涛,冯亚伟,李伟,陈伟,朱建,李和兴. Unveiling the role of defects on oxygen activation and photodegradation of organic pollutants. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2018,52(23):13879-13886.
[865] 冯亚伟,卞振锋. Enhanced Photocatalytic Degradation Performance by Fluid-Induced Piezoelectric Field. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2018,52(52):7842−7848.
[866] 秦红霞,卞振锋. Effect of Ti(III) Surface Defects on the Process of Photocatalytic Reduction of Hexavalent Chromium. CHINESE JOURNAL OF CHEMISTRY,2017,35(35):203-208.
[867] 卞振锋,李和兴. Solvothermal alcoholysis synthesis of hierarchical TiO2 with enhanced activity in environmental and energy photocatalysis. JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY C-PHOTOCHEMISTRY REVIEWS,2016,28(28):72-86.
[868] 陈菲菲,卞振锋. Exploring the Important Role of Nanocrystals Orientation in TiO2 Superstructure on Photocatalytic Performances. LANGMUIR,2015,31(11):3494–3499.
[869] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[870] 唐超,卞振锋. Aerosol spray assisted assembly of TiO2 mesocrystals into hierarchical hollow microspheres with enhanced photocatalytic performance. APPLIED CATALYSIS B-ENVIRONMENTAL,2016,201(201):41-47.
[871] 闻洁雅,卞振锋. Pyroelectricity effect on photoactivating palladium nanoparticles in PbTiO3 for Suzuki coupling reaction. CHINESE JOURNAL OF CATALYSIS,2020,41(41):1674–1681.
[872] 邓晓明,卞振锋. Polyaniline-TiO2 composite photocatalysts for light-driven hexavalent chromium ions reduction. Science Bulletin,2019,65(65):105-112.
[873] 许正明,卞振锋. Controlling the Gas−Water Interface to Enhance Photocatalytic Degradation of Volatile Organic Compounds. Environmental Science & Technology Letters,2021,1(7):1140-1148.
[874] 曹嘉真,卞振锋. Aqueous Photocatalytic Recycling of Gold and Palladium from Waste Electronics and Catalysts. ACS ES&T Engineering,2022,2(1):1445-1453.
[875] 李欣茹,卞振锋. Challenges of photocatalysis and their coping strategies. Chem Catalysis,2022,2(2):1-31.
[876] 任宇晴,卞振锋. Microwave-Assisted Photocatalytic Degradation of Organic Pollutants via CNTs/TiO2. Catalysts,2022,12(9):940.
[877] 曹嘉真,卞振锋. Tailoring the Asymmetric Structure of NH2-UiO-66 Metal-Organic Frameworks for Light-promoted Selective and Efficient Gold Extraction and Separation. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2023,135(18):e202302202.
[878] 赵卿飞,卞振锋. In situ Fe(III)-doped TiO2 mesocrystals catalyzed visible light photo-Fenton system. CATALYSIS TODAY,2023,410(-):309-316.
[879] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[880] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[881] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[882] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[883] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[884] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[885] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[886] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[887] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[888] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[889] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[890] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[891] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[892] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[893] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[894] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[895] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[896] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[897] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[898] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[899] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[900] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[901] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[902] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[903] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[904] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[905] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[906] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[907] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[908] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[909] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[910] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[911] 阳德红,卞振锋. A curtain purification system based on a rabbit fur-based rotating triboelectric nanogenerator for efficient photocatalytic degradation of volatile organic compounds. Nanoscale,2023,15(-):6709-6721.
[912] 王涛,卞振锋. Fully biodegradable water-soluble triboelectric nanogenerator for human physiological monitoring. Nano Energy,2022,93(93):106787.
[913] 陈瑶,卞振锋. Systematic Assessment of Precious Metal Recovery to Improve Environmental and Resource Protection. ACS ES&T Engineering,2022,2(1):1039-1052.
[914] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[915] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[916] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[917] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[918] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[919] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[920] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[921] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[922] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[923] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[924] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[925] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[926] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[927] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[928] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[929] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[930] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[931] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[932] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[933] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[934] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[935] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[936] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[937] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[938] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[939] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[940] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[941] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[942] 王金果,李和兴,曹锋雷,卞振锋,Michael K. H. Leung. Ultrafine single-crystal TiOF2 nanocubes with mesoporous structure, high activity and durability in visible light driven photocatalysis. NANOSCALE,2014,6(/):897-902.
[943] 闫琪,卞振锋. Self-Cleaning and Shape-Adaptive Triboelectric Nanogenerator-Contained TiO2 Nanoparticle Coating. ACS Applied Materials & Interfaces,2022,14(44):49755–49764.
[944] 黄凤娇,卞振锋. A hybrid nanogenerator for collecting both water wave and steam evaporation energy. Nano Energy,2023,110(-):108346.
[945] 潘晓阳,卞振锋. 2D MXenes polar catalysts for multi-renewable energy harvesting applications. Nature Communications,2023,14(-):4183.
[946] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[947] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[948] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.
[949] 卞振锋. Pt负载对TiO2光催化氧化还原的影响. 中国科技论文在线,2016,11(18):2091-2095.
[950] 卞振锋. Plant Uptake-Assisted Round-the-Clock Photocatalysis for Complete Purification of Aquaculture Wastewater Using Sunlight. ENVIRONMENTAL SCIENCE & TECHNOLOGY,2015,49(4):2418−2424.

著作

[14] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[15] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[22] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[23] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[36] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[37] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[38] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[39] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[896] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[898] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[899] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[900] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[901] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[902] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[903] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[904] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[905] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[906] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[908] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[909] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[911] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[913] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[914] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[915] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[916] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[917] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[918] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[919] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[920] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[921] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[922] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[923] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[924] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[925] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[927] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[928] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[929] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[930] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[933] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[934] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[939] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[942] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[943] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[947] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[948] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[949] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[950] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[951] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[952] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[957] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[958] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[959] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
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[974] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[984] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[985] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[986] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1002] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1003] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1004] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1005] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1006] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1011] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1012] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1013] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1014] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1015] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1016] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[1018] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1019] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1023] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1025] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1026] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1027] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1028] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
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[1045] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
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[1054] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1055] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1056] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1058] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
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[1060] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1061] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[1076] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[1094] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[1105] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1106] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
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[1108] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1114] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1115] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1116] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1117] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
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[1154] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1155] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
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[1157] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1158] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1159] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
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[1186] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1187] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1188] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1189] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1190] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1191] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1192] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1193] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1194] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1195] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1196] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1197] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1198] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1199] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1200] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1201] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1202] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1203] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1204] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1205] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1206] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1207] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1208] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1209] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1210] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1211] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1212] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1213] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1214] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1215] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1216] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1217] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1218] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1219] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1220] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1221] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1222] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1223] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1224] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1225] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1226] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1228] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1229] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1230] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1231] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1232] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1233] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1234] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1235] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1236] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1237] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1238] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1288] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1289] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1319] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1320] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1321] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1322] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1323] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1324] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1325] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1326] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1327] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1328] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1329] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1330] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1331] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1332] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1333] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1334] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1335] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1336] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1337] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1338] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1339] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1340] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1341] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1342] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1343] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1344] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1345] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1346] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1347] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1348] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1349] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1350] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1351] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1352] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1353] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1354] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1355] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1356] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1357] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1358] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1359] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1360] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1361] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1362] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1363] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1364] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1365] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1366] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1367] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1368] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1369] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1370] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1371] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1372] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1373] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1374] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1375] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1376] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1377] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1378] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1379] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1380] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1381] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1382] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1404] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1405] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1406] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1407] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1408] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1409] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1410] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1411] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1412] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1413] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1414] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1415] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1416] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1417] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1418] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1419] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1420] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1421] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1422] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1423] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1424] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1425] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1426] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1427] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1428] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1429] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1430] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1431] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1432] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1433] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1434] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1435] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1436] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1437] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1438] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1440] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1441] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1442] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1443] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1444] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1445] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1446] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1447] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1448] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1449] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1450] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1451] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1452] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1453] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1454] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1455] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1456] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1457] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1458] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1459] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1460] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1461] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1462] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1463] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1464] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1465] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1466] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1467] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1468] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1469] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1470] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1471] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1472] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1473] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1474] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1475] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1476] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1477] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1478] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1479] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1480] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1481] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1482] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1483] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1484] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1485] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1486] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1487] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1488] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1508] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1509] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1510] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1511] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1512] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1513] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1514] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1515] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1516] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1517] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1518] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1519] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1520] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1521] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1522] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1523] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1524] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1525] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1526] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1527] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1528] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1529] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1530] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1531] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1532] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1533] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1534] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1535] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1536] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1537] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1538] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1539] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1540] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1541] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1542] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1543] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1544] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1545] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1546] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1547] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1548] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1549] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1550] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1551] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1552] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1553] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1554] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1555] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1556] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1557] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1558] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1559] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1560] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1561] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1562] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1563] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1564] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1565] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1566] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1567] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1568] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1569] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1570] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1571] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1572] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1573] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1574] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1575] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1576] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1577] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1578] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1579] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1580] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1581] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1582] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1583] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1584] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1585] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1586] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1587] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1588] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1589] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1590] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1591] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1592] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1593] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1594] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1595] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1596] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1597] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1598] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1599] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1602] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1603] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1604] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1605] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1606] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1607] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1608] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1609] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1610] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1611] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1612] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1613] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1614] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1615] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1616] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1617] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1618] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1619] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1620] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1621] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1622] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1623] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1624] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1625] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1626] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1627] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1628] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1629] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1630] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1631] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1632] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1634] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1635] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1636] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1637] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1638] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1639] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1640] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1641] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1642] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1643] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1644] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1645] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1646] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1647] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1648] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[1650] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1651] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1652] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1653] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1654] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
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[1657] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1658] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1660] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1661] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1662] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1663] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1665] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1666] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1667] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1668] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
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[1670] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1671] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1672] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1676] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1677] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
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[1681] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1682] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1683] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1685] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
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[1688] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
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[1690] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[1692] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
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[1697] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
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[1700] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1701] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1702] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1703] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1704] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[1706] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1707] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1708] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1709] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1710] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1711] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1712] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1713] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1714] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1715] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1716] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1717] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1718] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1719] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1720] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1721] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1722] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1723] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1724] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1725] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1726] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1727] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1728] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[1730] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1731] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1732] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[1734] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1735] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1736] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1737] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
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[1741] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1742] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1743] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1744] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1745] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1746] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1747] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1748] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1749] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1750] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1751] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1752] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1753] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1754] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1755] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1756] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1757] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1758] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1759] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1760] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1761] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1762] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1763] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1764] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1765] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1766] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
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[1770] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1771] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
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[1778] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1779] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1780] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1781] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1782] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1783] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
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[1802] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1803] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1804] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1805] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1806] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1807] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1808] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1809] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1810] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1811] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1812] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1813] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1814] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1815] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1816] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1817] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1818] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1819] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1820] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1821] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1822] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1823] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1824] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1825] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1826] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1827] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1828] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1829] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1830] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1831] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1832] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1833] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1834] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1835] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1836] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1837] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1838] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1839] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1840] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1841] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1842] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1848] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1849] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1850] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1851] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1852] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1853] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1854] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1855] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1856] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1857] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1858] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1859] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1860] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1861] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1862] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1863] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1864] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1865] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1866] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1867] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1868] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1869] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1870] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1871] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1872] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1873] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1874] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1875] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1876] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1877] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1878] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1879] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1880] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1881] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1882] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1883] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1884] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1885] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1886] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1887] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1888] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1889] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1890] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1891] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1892] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1893] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1894] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1895] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1896] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1897] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1898] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1899] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1900] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1901] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1902] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1903] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1904] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1905] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1906] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1907] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1908] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1909] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1910] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1911] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1912] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1913] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1914] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1915] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1916] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1917] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1918] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1919] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1920] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1921] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1922] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1923] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1924] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1925] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1926] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1927] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1928] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1929] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1930] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1931] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1932] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1933] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1934] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1935] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1936] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1937] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1938] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1939] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1940] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1941] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1942] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1943] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1944] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1945] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1946] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1947] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1948] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1949] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1950] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1951] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1952] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1953] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1954] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1955] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1956] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1957] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1958] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1959] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1960] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1961] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1962] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1963] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1964] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1965] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1966] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1967] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1968] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1969] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1970] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1971] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1972] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1973] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1974] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1975] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1976] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1977] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1978] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1979] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1980] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1981] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1982] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1983] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1984] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1985] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1986] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1987] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1988] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1989] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1990] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1991] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[1992] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1993] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[1994] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1995] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[1996] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1998] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[1999] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2000] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2001] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2002] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2003] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2004] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2005] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2006] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2007] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2008] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2009] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2010] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2011] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2012] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2013] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2014] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2015] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2016] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2017] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2018] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2019] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2020] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2021] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2022] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2023] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2024] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2025] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2026] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2027] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2028] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2029] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2030] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2031] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2032] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2033] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2034] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2035] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2036] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2037] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2038] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2039] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2040] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2041] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2042] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2043] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2044] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2045] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2046] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2047] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2048] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2049] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2050] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2051] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2052] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2053] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2054] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2055] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2056] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2057] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2058] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2059] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2060] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2061] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2062] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2063] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2064] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2065] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2066] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2067] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
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[2318] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
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[2346] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2347] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2348] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2349] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2350] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2351] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2352] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2353] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2354] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2355] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2356] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2357] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2358] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2359] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2360] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2361] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2362] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2363] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2364] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2365] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2366] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2367] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2368] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2369] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2370] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2371] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2372] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2373] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2374] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2375] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2376] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2377] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2378] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2379] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2380] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2381] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2382] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2383] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2384] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2385] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2386] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2387] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2388] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2389] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2390] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2391] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2392] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2393] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2394] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2395] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2396] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2397] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2398] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2399] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2400] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2401] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2402] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2403] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2404] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2405] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2406] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2407] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2408] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2409] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2410] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2411] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2412] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2413] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2414] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2415] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2416] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2417] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2418] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2419] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2420] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2421] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2422] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2423] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2424] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2425] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2426] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2427] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2428] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2429] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2430] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2431] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2432] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2433] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2434] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2435] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2436] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2437] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2438] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2439] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2440] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2441] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2442] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2443] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2444] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2445] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2446] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2447] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2448] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2449] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2450] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2451] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2452] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2453] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2454] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2455] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2456] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2457] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2458] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2459] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2460] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2461] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2462] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2463] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2464] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2465] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2466] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2467] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2468] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2469] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2470] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2471] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2472] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2473] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2474] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2475] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2476] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2477] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2478] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2479] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2480] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2481] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2482] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2483] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2484] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2485] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2486] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2487] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2488] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2489] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2490] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2491] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2492] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2493] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2494] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2495] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2496] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2497] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2498] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2499] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2500] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2501] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2502] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2503] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2504] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2505] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2506] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2507] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2508] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2509] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2510] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2511] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2512] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2513] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2514] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2515] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2516] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2517] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2518] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2519] 卞振锋. Core-Shell and Yolk-Shell Nanocatalysts. Springer, 2021.
[2520] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2521] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2522] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2523] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2524] 卞振锋. Persulfate-based Oxidation Processes in Environmental Remediation. Royal Society of Chemistry, 2022.
[2525] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2526] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2527] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2528] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2529] 卞振锋. Current Developments in Photocatalysis and Photocatalytic Materials. Elsevier, 2020.
[2530] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.
[2531] 卞振锋. Nanostructured Photocatalysts. Springer, 2016.

科研项目

[1] 卞振锋.校一般科研项目:第十六届全国太阳能化学与光催化学术会议,在研.
[2] 卞振锋.国家自然科学基金（面上项目）:表面微区电场调控对光催化净化室内低浓度有机污染物的机理研究,结题.
[3] 卞振锋.校一般科研项目:污染控制化学研究,在研.
[4] 卞振锋.湖州红缨再生资源有限公司:一种光催化选择性金属溶解剂及溶解方法(ZL201910917447.8)等三项发明专利权许可,在研.
[5] 卞振锋.校一般科研项目:第十六届全国太阳能化学与光催化学术会议,在研.
[6] 卞振锋.校一般科研项目:污染控制化学研究,在研.
[7] 卞振锋.国家重要科技项目地方配套:污染控制化学(地方配套),结题.
[8] 卞振锋.国家自然科学基金（面上项目）:表面微区电场调控对光催化净化室内低浓度有机污染物的机理研究,结题.
[9] 卞振锋.上海万铭环保科技股份有限公司:一种TiOF2光催化薄膜的低温制备方法及其应用,在研.
[10] 卞振锋.校一般科研项目:污染控制化学研究,在研.
[11] 卞振锋.校一般科研项目（杰青培育）:光催化污染控制化学,在研.
[12] 卞振锋.上海市知识产权局:一种光催化选择性金属溶解剂及溶解方等三项发明专利权许可创新奖,在研.
[13] 卞振锋.国家重点研发计划（课题）子课题:纳米碳基分离膜的制备及水处理性能,在研.
[14] 卞振锋.校一般科研项目:污染控制化学研究,在研.
[15] 卞振锋.湖州红缨再生资源有限公司:一种光催化选择性金属溶解剂及溶解方法(ZL201910917447.8)等三项发明专利权许可,在研.
[16] 卞振锋.国家自然科学基金（面上项目）:表面微区电场调控对光催化净化室内低浓度有机污染物的机理研究,结题.
[17] 卞振锋.贵州中银信矿业投资有限公司:光催化浸出贵金属技术研发,在研.
[18] 卞振锋.上海善施科技有限公司:纺织染整工业水光催化降解及相关技术工艺研发,在研.
[19] 卞振锋.上海善施科技有限公司:纺织染整工业水光催化降解及相关技术工艺研发,在研.
[20] 卞振锋.浙江创魏新材股份有限公司:一种光催化金属溶解方法发明专利权许可,在研.
[21] 卞振锋.上海市优秀学科带头人计划（青年）:基于光催化技术清洁提取固废中贵金属的机理探究,在研.
[22] 卞振锋.国家重点研发计划（课题）子课题:纳米碳基分离膜的制备及水处理性能,在研.
[23] 卞振锋.校产学研项目:固废中贵金属的光催化清洁提取,在研.
[24] 卞振锋.校一般科研项目:光催化去除六价铬离子污染的探究,在研.
[25] 卞振锋.校一般科研项目:光催化去除六价铬离子污染的探究,在研.
[26] 卞振锋.贵州中银信矿业投资有限公司:光催化浸出贵金属技术研发,在研.
[27] 卞振锋.校产学研项目:固废中贵金属的光催化清洁提取,在研.
[28] 卞振锋.上海市教育委员会科研创新项目（重点项目）:汽车尾气催化剂中铂族贵金属的选择性绿色回收,在研.
[29] 卞振锋.校产学研项目:固废中贵金属的光催化清洁提取,在研.
[30] 卞振锋.贵州中银信矿业投资有限公司:光催化浸出贵金属技术研发,在研.
[31] 卞振锋.国家自然科学基金（面上项目）:表面微区电场调控对光催化净化室内低浓度有机污染物的机理研究,结题.
[32] 卞振锋.国家自然科学基金（面上项目）:光催化对固废中贵金属清洁提取的机理探究,在研.
[33] 卞振锋.国家重要科技项目地方配套:污染控制化学(地方配套),结题.
[34] 卞振锋.上海善施科技有限公司:纺织染整工业水光催化降解及相关技术工艺研发,在研.
[35] 卞振锋.校一般科研项目:第十六届全国太阳能化学与光催化学术会议,在研.
[36] 卞振锋.上海市知识产权局:一种光催化选择性金属溶解剂及溶解方等三项发明专利权许可创新奖,在研.
[37] 卞振锋.校一般科研项目:污染控制化学研究,在研.
[38] 卞振锋.校一般科研项目（杰青培育）:光催化污染控制化学,在研.
[39] 卞振锋.上海善施科技有限公司:纺织染整工业水光催化降解及相关技术工艺研发,在研.
[40] 卞振锋.上海万铭环保科技股份有限公司:生态建筑和生态道路及相关技术工艺研发,在研.
[41] 卞振锋.上海市教育委员会科研创新项目（重点项目）:汽车尾气催化剂中铂族贵金属的选择性绿色回收,在研.
[42] 卞振锋.校一般科研项目:基于吸附-光催化还原-脱附技术去除重金属离子污染研究,在研.
[43] 卞振锋.国家重点研发计划（课题）子课题:纳米碳基分离膜的制备及水处理性能,在研.
[44] 卞振锋.上海市优秀学科带头人计划（青年）:基于光催化技术清洁提取固废中贵金属的机理探究,在研.
[45] 卞振锋.校一般科研项目（杰青培育）:光催化污染控制化学,在研.
[46] 卞振锋.校一般科研项目:光催化去除六价铬离子污染的探究,在研.
[47] 卞振锋.校一般科研项目:第十六届全国太阳能化学与光催化学术会议,在研.
[48] 卞振锋.国家自然科学基金（面上项目）:表面微区电场调控对光催化净化室内低浓度有机污染物的机理研究,结题.
[49] 卞振锋.上海市优秀学科带头人计划（青年）:基于光催化技术清洁提取固废中贵金属的机理探究,在研.
[50] 卞振锋.校一般科研项目:第十六届全国太阳能化学与光催化学术会议,在研.

专利成果

[1] 李和兴,张鹏,李贵生,朱建,卞振锋. 一种制备氮化钒的工艺. 中国专利:申请状态(申请号:201110065235.5).
[2] 李和兴,卞振锋,朱建,李贵生,曹锋雷. 一种合成TiO2介孔单晶的工艺. 中国专利:申请状态(申请号:201110099337.9).
[3] 李和兴,张鹏,朱建,卞振锋. 一种原位碳热还原氮化法制备氮化钛的方法. 中国专利:申请状态(申请号:201210086576.5).
[4] 李和兴,李和兴,卞振锋,朱建,曹锋雷,王少华. 包裹贵金属纳米粒子的二氧化钛微胶囊制备方法. 中国专利:ZL201010165338.4,2012-06-06.
[5] 李和兴,卞振锋. 一种二氧化钛光催化剂的制备方法. 中国专利:ZL200610024772.4,2008-11-19.
[6] 朱建,吕伏建,卞振锋,曹锋雷,王金果,李和兴. 一种TiOF2光催化薄膜的低温制备方法及其应用. 中国专利:ZL201110156286.9,2013-04-17.
[9] 朱建,卞振锋,李贵生,李和兴. 一种泡沫型二氧化钛催化剂的制备方法. 中国专利:ZL200910044918.5,2010-09-15.
[10] 曹锋雷,卞振锋,朱建,李和兴. 一种尺寸可控的单分散二氧化钛介孔微球的制备方法. 中国专利:申请状态(申请号:201410766633.3).
[11] 卞振锋,唐超,曹锋雷,李和兴. 一种超声喷雾干燥制备介孔单晶TiO2的方法. 中国专利:ZL201410851401.8,2017-08-25.
[12] 卞莹莹,卞振锋,唐超. 一种多组分雾化混合的装备和方法. 中国专利:申请状态(申请号:201611067689.5).
[13] 卞莹莹,卞振锋,唐超. 一种多组分雾化混合的装置. 中国专利:申请状态(申请号:201621287499.X).
[14] 卞振锋. 一种光催化含腈-胺溶液体系选择性金属浸出的方法. 中国专利:申请状态(申请号:202210975258.8).
[15] 卞振锋. 一种含金属废料提纯装置. 中国专利:申请状态(申请号:2021114143250).
[16] 卞振锋,陈瑶,徐梦娇,闻洁雅,万瑜,李和兴. 光触媒作用による金属溶解法. 中国专利:JP2021524243,2022-01-28.
[17] 卞振锋. 一种加快贵金属溶解的微波-光催化方法. 中国专利:申请状态(申请号:202210969148.0).
[18] 卞振锋,许振民,曹锋雷,李魏,李和兴. 一种喷雾干燥法制备片状单晶氧化钛的方法. 中国专利:ZL201810534312.9,2020-10-16.
[21] 卞振锋,乔倩瑜. 一种利用磷酸根修饰光催化剂进行光催化溶解金属的方法. 中国专利:申请状态(申请号:202110467492.5).
[23] 卞振锋. 一种光催化配位锚定一步合成单原子金属催化剂的方法. 中国专利:申请状态(申请号:202211650834.8).
[24] 李和兴,朱建,王少华,蔡陈灵,卞振锋. 纳米单晶二氧化钛光催化剂的制备方法. 中国专利:申请状态(申请号:200910055500.4).
[25] 卞振锋,李和兴,朱建,张鹏. 醇热法制备形貌可控的氮化钛工艺. 中国专利:ZL201010165316.8,2011-11-30.
[26] 朱建,王少华,卞振锋,李和兴. 一种多级花状结构二氧化钛的制备方法. 中国专利:ZL200910046751.6,2011-05-25.
[27] 朱建,王松玲,卞振锋,曹锋雷,李和兴. 高比表面积单晶氧化钨的制备方法. 中国专利:ZL200910055502.3,2012-01-25.
[28] 卞振锋,陈菲菲,张明华,李和兴. 一种可模块化组装的板式光催化反应装置和方法. 中国专利:ZL201410849190.4,2016-06-01.
[29] 卞振锋,陈菲菲,张明华,李和兴. 一种可模块化组装的板式光催化反应装置. 中国专利:ZL201420866181.1,2015-10-14.
[30] 卞振锋,刘龙飞,李雅丽,曹锋雷,李和兴. 一种多孔单晶TiO2薄膜的制备方法. 中国专利:申请状态(申请号:201510717887.0 ).
[31] 朱建,王金果,卞振锋,曹锋雷,李和兴. 一种｛001｝面暴露微米层状二氧化钛光催化剂的制备方法. 中国专利:申请状态(申请号:201010116456.6).
[32] 卞振锋,冯亚伟,曹锋雷,李魏,李和兴. 一种钛酸铅光催化剂用于增强光催化反应的方法. 中国专利:申请状态(申请号:201810563016.1).
[33] 卞振锋,陈瑶,徐梦娇,凌丽丽,闻洁雅,万瑜,刘丽,李和兴. 一种光催化金属溶解方法. 中国专利:ZL201910294530.4,2021-10-22.
[34] 卞振锋,陈瑶,徐梦娇,闻洁雅,万瑜,李和兴. 一种光催化选择性金属溶解剂及溶解方法. 中国专利:ZL201910917447.8,2022-10-28.
[35] 卞振锋,秦红霞,李和兴. 一种醇热法合成Ti3+掺杂二氧化钛的制备方法. 中国专利:申请状态(申请号:201410850595.X).
[36] 卞振锋,李雅丽,刘龙飞,詹欢欢,张明华,李和兴. 一种超声水洗式光催化空气净化装置. 中国专利:ZL201520843040.2,2016-03-23.
[37] 卞振锋,李雅丽,刘龙飞,詹欢欢,张明华,李和兴. 一种超声水洗式光催化空气净化装置及其应用. 中国专利:ZL201510713265.0,2018-03-02.
[38] 卞振锋,曹嘉真,陈瑶,李和兴. 一种水溶液中光催化选择性溶解贵金属的方法. 中国专利:ZL202110315369.1,2023-03-24.
[39] 卞振锋,许振民,曹锋雷,李魏,李和兴. 一种Pd/TiO₂催化剂的制备方法及其在乌尔曼反应的应用. 中国专利:申请状态(申请号:201810533895.3).
[40] 卞振锋,许振民,曹锋雷,李魏,李和兴. 一种多级结构核壳氧化锰材料的制备方法. 中国专利:申请状态(申请号:201810534286.X).
[41] 卞振锋,许振民,曹锋雷,李魏,李和兴. 一种贵金属原位修饰介孔氧化钛材料的制备方法. 中国专利:ZL201810534289.3,2021-02-26.
[42] 卞振锋,陈瑶,徐梦娇,闻洁雅,万瑜,李和兴. 光触媒作用による金属溶解法. 中国专利:JP2021524243,2022-01-28.
[43] 卞振锋,陈瑶,徐梦娇,凌丽丽,闻洁雅,万瑜,刘丽,李和兴. 一种光催化金属溶解方法. 国外专利:7016569,2022-01-28.
[44] 卞振锋. 一种加快贵金属溶解的微波-光催化方法. 中国专利:申请状态(申请号:卞振锋).
[45] 卞振锋. 一种臭氧加速溶解金属的方法. 中国专利:申请状态(申请号:2022113550540.).
[46] 卞振锋,郑茹,曹锋雷,张明华,李魏,李和兴. 一种壁挂式光催化空气净化装置及其应用办法. 中国专利:ZL201811595514.0,2021-08-03.
[47] 卞振锋,陈瑶,徐梦娇,凌丽丽,闻洁雅,万瑜,刘丽,李和兴. 一种光催化金属溶解方法. 国外专利:7016569,2022-01-28.