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1
A review of charge storage in porous carbon-based supercapacitors
LUO Xian-you, CHEN Yong, MO Yan
2021, 36(1): 49-68. doi: 10.1016/S1872-5805(21)60004-5
Abstract(8774) HTML(1733) PDF(512)
2
A review of porous carbons produced by template methods for supercapacitor applications
ZHANG Wei, CHENG Rong-rong, BI Hong-hui, LU Yao-hui, MA Lian-bo, HE Xiao-jun
2021, 36(1): 69-81. doi: 10.1016/S1872-5805(21)60005-7
Abstract(6965) HTML(797) PDF(154)
3
Biomass-derived porous carbons as supercapacitor electrodes - A review
Majid Shaker, Ali Asghar Sadeghi Ghazvini, CAO Wei-qi, Reza Riahifar, GE Qi
2021, 36(3): 546-572. doi: 10.1016/S1872-5805(21)60038-0
Abstract(6573) HTML(2500) PDF(425)
4
Electrochemical oxidation of 2D B, N-codoped carbon nanosheets to improve their pseudo-capacitance
HU You-ren, DONG Xiao-ling, HOU Lu, ZHUANG Hong-kun, LI Wen-cui
2021, 36(6): 1109-1117. doi: 10.1016/S1872-5805(21)60084-7
Abstract(6186) HTML(414) PDF(115)
5
Preparation of a N-P co-doped waste cotton fabric-based activated carbon for supercapacitor electrodes
HUANG Ling, WANG Shuai, ZHANG Yu, HUANG Xiang-hong, PENG Jun-jun, YANG Feng
2021, 36(6): 1128-1137. doi: 10.1016/S1872-5805(21)60054-9
Abstract(6063) HTML(582) PDF(107)
6
Synthesis and use of hollow carbon spheres for electric double-layer capacitors
XU Kuang-liang, LIU Jing, YAN Zhao-xiong, JIN Mei, XU Zhi-hua
2021, 36(4): 794-809. doi: 10.1016/S1872-5805(20)60517-0
Abstract(5974) HTML(1192) PDF(109)
7
An interfacial self-assembly strategy to fabricate graphitic hollow porous carbon spheres for supercapacitor electrodes
ZHANG Xiao-hua, GAN Xin-yu, LIU Bao-sheng, YAN Xiao-yan, ZHAO Xin-xin
2021, 36(3): 594-605. doi: 10.1016/S1872-5805(21)60062-8
Abstract(5910) HTML(731) PDF(109)
8
Micro/mesopore carbon spheres derived from sucrose for use in high performance supercapacitors
SHI Jing, TIAN Xiao-dong, LI Xiao, LIU Ye-qun, SUN Hai-zhen
2021, 36(6): 1149-1157. doi: 10.1016/S1872-5805(21)60044-6
Abstract(5866) HTML(494) PDF(115)
9
Charge storage mechanisms of manganese dioxide-based supercapacitors: A review
TANG Xiao-ning, ZHU Shao-kuan, NING Jian, YANG Xing-fu, HU Min-yi, SHAO Jiao-jing
2021, 36(4): 702-710. doi: 10.1016/S1872-5805(21)60082-3
Abstract(5674) HTML(510) PDF(144)
10
Conversion of carbon nanotubes into curved graphene with improved capacitance
LI Xiao-yan, WANG Qiang, WANG Huan-wen
2021, 36(4): 835-842. doi: 10.1016/S1872-5805(21)60086-0
Abstract(5379) HTML(598) PDF(98)
11
Preparation of a porous carbon from Enteromorpha prolifera with excellent electrochemical properties
LI Shi-jie, ZHANG Ming-yang, GAO Yan, LI Hui, WANG Qian, ZHANG Lin-hua
2021, 36(6): 1158-1168. doi: 10.1016/S1872-5805(21)60068-9
Abstract(5275) HTML(294) PDF(53)
12
炭化温度对竹炭微观结构及电性能的影响
JIANG Ze-hui, ZHANG Dong-sheng, FEI Ben-hua, YUE Yong-de, CHEN Xiao-hong
2004, 19(04): 249-253.
Abstract(4914) PDF(4831)
13
氧化石墨烯及其与聚合物的复合
YANG Yong-gang, CHEN Cheng-meng, WEN Yue-fang, YANG Quan-hong, WANG Mao-zhang
2008, 23(03): 193-200.
Abstract(4906) PDF(1429)
14
Dreams may come: from fullerene, carbon nanotube to graphene
YANG Quan-hong
2011, 26(01): 1-4.
Abstract(4886) PDF(3397)
15
碳纳米管溶解性及其化学修饰
JIN Wei-jun, SUN Xu-feng, WANG Yu
2004, 19(04): 312-318.
Abstract(4790) PDF(5813)
16
不同原料气催化热解法制备碳纳米管的研究
LI Ying, LI Xuanke, LIU Lang
2004, 19(04): 298-302.
Abstract(4766) PDF(4239)
17
Compressive mechanical behavior of carbon/carbon composites under dynamic loading
YUAN Qin-lu, LI Yu-long, LI He-jun, GUO Ling-jun, LI Shu-ping
2010, 25(2): 114-118.
Abstract(4737) PDF(1792)
18
氨化对湿纺PAN初生丝条结构的影响
REN Fu-zhong, LU Chun-xiang, LIANG Xiao-yi, WU Gang-ping, HE Fu, LING Li-cheng
2004, 19(04): 268-274.
Abstract(4570) PDF(3529)
19
碳纳米管加载量对复合材料吸波性能的影响
SUN Xiao-gang
2007, 22(04): 375-378.
Abstract(4473) PDF(739)
20
High-performance self-assembled graphene hydrogels prepared by chemical reduction of graphene oxide
SHENG Kai-xuan, XU Yu-xi, LI Chun, SHI Gao-quan
2011, 26(01): 9-15. doi: 1007-8827(2011)01-0009-07
Abstract(4298) PDF(2706)
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