数理学院

常全鸿

(0)

基本信息

性别：男
聘任技术职务：讲师（高校）
学历：博士研究生毕业
联系电话：
电子邮箱：changquanhong@shnu.edu.cn
通讯地址：

部门：数理学院
学位：工学博士学位
毕业院校：哈尔滨工业大学
办公地址：

研究方向：

（以下信息源于科研管理系统）

学术成果：

论文

[1] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[2] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[3] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[4] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[5] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[6] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[7] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[8] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[9] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[10] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[11] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[12] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[13] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[14] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[15] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[16] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[17] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[18] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[19] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[20] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[21] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[22] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[23] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[24] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[25] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[26] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[27] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[28] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[29] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[30] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[31] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[32] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[33] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[34] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[35] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[36] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[37] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[38] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[39] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[40] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[41] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[42] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[43] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[44] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[45] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[46] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[47] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[48] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[49] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[50] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[51] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[52] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[53] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[54] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[55] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[56] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[57] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[58] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[59] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[60] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[61] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[62] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[63] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[64] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[65] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[66] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[67] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[68] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[69] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[70] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[71] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[72] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[73] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[74] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[75] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[76] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[77] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[78] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[79] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[80] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[81] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[82] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[83] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[84] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[85] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[86] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[87] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[88] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[89] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[90] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[91] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[92] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[93] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[94] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[95] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[96] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[97] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[98] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[99] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[100] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[101] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[102] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[103] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[104] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[105] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[106] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[107] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[108] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[109] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[110] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[111] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[112] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[113] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[114] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[115] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[116] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[117] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[118] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[119] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[120] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[121] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[122] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[123] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[124] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[125] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[126] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[127] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[128] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[129] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[130] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[131] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[132] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[133] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[134] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[135] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[136] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[137] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[138] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[139] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[140] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[141] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[142] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[143] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[144] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[145] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[146] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[147] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[148] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[149] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[150] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[151] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[152] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[153] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[154] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[155] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[156] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[157] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[158] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[159] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[160] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[161] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[162] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[163] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[164] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[165] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[166] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[167] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[168] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[169] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[170] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[171] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[172] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[173] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[174] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[175] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[176] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[177] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[178] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[179] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[180] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[181] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[182] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[183] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[184] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[185] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[186] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[187] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[188] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[189] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[190] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[191] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[192] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[193] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[194] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[195] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[196] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[197] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[198] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[199] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[200] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[201] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[202] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[203] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[204] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[205] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[206] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[207] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[208] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[209] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[210] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[211] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[212] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[213] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[214] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[215] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[216] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[217] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[218] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[219] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[220] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[221] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[222] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[223] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[224] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[225] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[226] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[227] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[228] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[229] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[230] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[231] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[232] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[233] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[234] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[235] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[236] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[237] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[238] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[239] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[240] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[241] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[242] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[243] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[244] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[245] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[246] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[247] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[248] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[249] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[250] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[251] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[252] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[253] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[254] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[255] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[256] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[257] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[258] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[259] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[260] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[261] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[262] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[263] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[264] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[265] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[266] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[267] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[268] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[269] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[270] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[271] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[272] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[273] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[274] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[275] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[276] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[277] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[278] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[279] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[280] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[281] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[282] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[283] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[284] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[285] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[286] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[287] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[288] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[289] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[290] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[291] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[292] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[293] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[294] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[295] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[296] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[297] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[298] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[299] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[300] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[301] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[302] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[303] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[304] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[305] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[306] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[307] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[308] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[309] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[310] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[311] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[312] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[313] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[314] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[315] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[316] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[317] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[318] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[319] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[320] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[321] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[322] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[323] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[324] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[325] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[326] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[327] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[328] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[329] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[330] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[331] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[332] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[333] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[334] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[335] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[336] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[337] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[338] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[339] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[340] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[341] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[342] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[343] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[344] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[345] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[346] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[347] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[348] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[349] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[350] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[351] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[352] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[353] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[354] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[355] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[356] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[357] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[358] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[359] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[360] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[361] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[362] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[363] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[364] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[365] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[366] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[367] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[368] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[369] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[370] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[371] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[372] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[373] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[374] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[375] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[376] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[377] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[378] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[379] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[380] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[381] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[382] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[383] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[384] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[385] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[386] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[387] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[388] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[389] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[390] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[391] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[392] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[393] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[394] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[395] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[396] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[397] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[398] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[399] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[400] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[401] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[402] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[403] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[404] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[405] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[406] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[407] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[408] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[409] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[410] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[411] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[412] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[413] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[414] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[415] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[416] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[417] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[418] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[419] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[420] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[421] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[422] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[423] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[424] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[425] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[426] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[427] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[428] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[429] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[430] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[431] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[432] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[433] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[434] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[435] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[436] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[437] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[438] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[439] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[440] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[441] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[442] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[443] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[444] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[445] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[446] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[447] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[448] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[449] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[450] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[451] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[452] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[453] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[454] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[455] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[456] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[457] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[458] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[459] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[460] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[461] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[462] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[463] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[464] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[465] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[466] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[467] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[468] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[469] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[470] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[471] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[472] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[473] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[474] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[475] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[476] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[477] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[478] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[479] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[480] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[481] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[482] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[483] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[484] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[485] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[486] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[487] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[488] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[489] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[490] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[491] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[492] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[493] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[494] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[495] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[496] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[497] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[498] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[499] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[500] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[501] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[502] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[503] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[504] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[505] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[506] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[507] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[508] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[509] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[510] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[511] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[512] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[513] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[514] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[515] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[516] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[517] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[518] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[519] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[520] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[521] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[522] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[523] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[524] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[525] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[526] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[527] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[528] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[529] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[530] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[531] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[532] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[533] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[534] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[535] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[536] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[537] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[538] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[539] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[540] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[541] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[542] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[543] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[544] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[545] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[546] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[547] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[548] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[549] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[550] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[551] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[552] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[553] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[554] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[555] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[556] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[557] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[558] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[559] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[560] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[561] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[562] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[563] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[564] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[565] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[566] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[567] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[568] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[569] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[570] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[571] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[572] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[573] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[574] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[575] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[576] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[577] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[578] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[579] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[580] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[581] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[582] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[583] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[584] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[585] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[586] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[587] cao changying,常全鸿,qiao huijie,shao runze,guo xin,石旺舟,黄磊,肖桂娜. Determination of H+ ion diffusion in Ti3C2-rGO glucose sensor. SENSORS AND ACTUATORS B-CHEMICAL,2021,340(15):129943.
[588] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[589] 常全鸿,马周静,王金忠,李盼盼,颜渊,石旺舟,陈琦,黄跃武,黄磊. Hybrid Graphene Quantum Dots@Graphene Foam Nanosheets for Dye-Sensitized Solar Cell Electrodes. ENERGY Technology,2016,4(2):256-262.
[590] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[591] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[592] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[593] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[594] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[595] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[596] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[597] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[598] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[599] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[600] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[601] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[602] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[603] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[604] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[605] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[606] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[607] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[608] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[609] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[610] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[611] 常全鸿,赛丽曼,黄磊,李乐梅,石旺舟. Interconnected binary carbon hybrids for supercapacitor electrode. ELECTROCHIMICA ACTA,2017,251(152):293-300.
[612] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[613] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[614] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[615] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[616] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[617] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[618] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[619] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[620] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[621] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[622] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[623] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[624] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[625] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[626] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[627] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[628] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[629] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[630] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[631] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[632] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[633] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[634] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[635] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[636] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[637] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[638] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[639] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[640] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[641] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[642] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[643] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[644] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[645] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[646] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[647] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[648] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[649] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[650] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[651] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[652] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[653] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[654] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[655] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[656] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[657] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[658] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[659] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[660] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[661] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[662] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[663] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[664] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[665] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[666] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[667] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[668] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[669] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[670] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[671] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[672] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[673] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[674] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[675] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[676] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[677] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[678] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[679] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[680] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[681] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[682] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[683] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[684] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[685] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[686] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[687] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[688] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[689] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[690] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[691] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[692] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[693] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[694] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[695] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[696] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[697] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[698] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[699] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[700] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[701] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[702] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[703] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[704] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[705] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[706] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[707] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[708] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[709] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[710] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[711] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[712] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[713] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[714] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[715] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[716] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[717] 常全鸿,chen wei,song jiaxuan,杜伟杰,肖桂娜,石旺舟,黄磊,Li Yifan. Hysteretic ion transport in MXene layered nanochannels for memcapacitance. APPLIED SURFACE SCIENCE,2023,639(639):158229.
[718] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[719] 黄磊,常全鸿. Graphene nanosheets@ZnO nanorods as three-dimensional high efficient counter electrodes for dye sensitized solar cells. ELECTROCHIMICA ACTA,2015,151(2):459-466.
[720] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[721] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[722] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[723] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[724] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[725] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[726] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[727] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[728] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[729] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[730] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[731] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.
[732] 常全鸿,李乐梅,乔会杰,赛丽曼,张毅闻,石旺舟,黄磊. Enhanced Electrolyte Ion Penetration in Microdome-like Graphene with High Mass Loading for High-Performance Flexible Supercapacitors. ACS Applied Energy Materials,2019,2(9):6790-6799.
[733] 常全鸿,李乐梅,赛丽曼,石旺舟,黄磊. Water-Soluble Hybrid Graphene Ink for Gravure-Printed Planar Supercapacitors. Advanced Electronic Materials,2018,4(8):1800059 (10).
[734] 常全鸿,cao changying,qiao huijie,hu yiqian,石旺舟,黄磊,肖桂娜. Ink transfer for printed flexible microsupercapacitors. CARBON,2021,178(6):285-293.

教学工作：

教职工课程信息
开课学年	开课学期	课程名称
2017-2018	2	大学物理实验
2019-2020	1	普通物理实验
2015-2016	1	高等数学Ⅰ
2018-2019	2	大学物理实验
2022-2023	2	大学物理实验
2023-2024	1	大学物理实验
2017-2018	1	大学物理实验
2025-2026	1	大学物理实验
2020-2021	1	大学物理实验
2023-2024	2	大学物理实验
2018-2019	1	大学物理实验
2020-2021	2	大学物理实验
2016-2017	2	大学物理实验
2021-2022	2	大学物理实验
2024-2025	1	薄膜物理
2021-2022	1	大学物理实验2
2024-2025	2	大学物理实验

荣誉奖励：

社会兼职：