基于石墨烯构筑纳米结构的酶复合电极的研究
序号 | 标题 | 类型 | 作者 |
---|---|---|---|
1 | Molybdenum nitride based hybrid cathode for rechargeable lithium-O-2 batteries | 期刊论文 | Dong, Shanmu|Xu, Hongxia|Yao, Jianhua|Zhang, Chuanjian|Zhang, Xiaoying|Shang, Chaoqun|Cui, Guanglei|Chen, Liquan|Chen, Xiao|Zhang, Kejun|Gu, Lin|Zhang, Lixue|Zhou, Xinhong|Li, Lanfeng|Liu, Zhihong|Han, Pengxian| |
2 | Nanostructured transition metal nitride composites as energy storage material | 期刊论文 | Yue YanHua|Han PengXian|Dong ShanMu|Zhang KeJun|Zhang ChuanJian|Shang ChaoQun|Cui GuangLei| |
3 | A high temperature operating nanofibrous polyimide separator in Li-ion battery | 期刊论文 | Jiang, Wen1|Liu, Zhihong1|Kong, Qingshan1|Yao, Jianhua1|Zhang, Chuanjian1|Han, Pengxian1|Cui, Guanglei1| |
4 | A hybrid material of vanadium nitride and nitrogen-doped graphene for lithium storage | 期刊论文 | Zhang, Kejun|Zhang, Chuanjian|Yao, Jianhua|Cui, Guanglei|Chen, Liquan|Wang, Haibo|He, Xiaoqing|Liu, Zhihong|Wang, Li|Gu, Lin|Xu, Hongxia|Han, Pengxian|Dong, Shanmu| |
5 | Mesoporous Cobalt Molybdenum Nitride: A Highly Active Bifunctional Electrocatalyst and Its Application in Lithium-O-2 Batteries | 期刊论文 | Zhang, Kejun|Gu, Lin|Cui, Guanglei|Zhang, Lixue|Chen, Xiao|He, Xiang|Wang, Xiaogang|Dong, Shanmu|Han, Pengxian|Zhang, Chuanjian|Wang, Shan| |
6 | Rutile TiO2 nanorod arrays directly grown on Ti foil substrates towards lithium-ion micro-batteries | 期刊论文 | Dong, Shanmu|Chen, Liquan|Wang, Haibo|Gu, Lin|Zhou, Xinhong|Liu, Zhihong|Han, Pengxian|Wang, Ya|Chen, Xiao|Cui, Guanglei| |
7 | Manganese monoxide/titanium nitride composite as high performance anode material for rechargeable Li-ion batteries | 期刊论文 | Xu, Gaojie1, 2|Zhang, Lixue1|Guo, Chaowei3|Gu, Lin4|Wang, Xiaogang1|Han, Pengxian1|Zhang, Kejun1|Zhang, Chuanjian1|Cui, Guanglei1| |
8 | Optical modulation of supramolecular assembly of amphiphilic photochromic diarylethene: from nanofiber to nanosphere | 期刊论文 | Zhou, Xinhong|Duan, Yulong|Yan, Shihai|Liu, Zhihong|Zhang, Chuanjian|Yao, Lishan|Cui, Guanglei| |
9 | Facile Preparation of Mesoporous Titanium Nitride Microspheres for Electrochemical Energy Storage | 期刊论文 | Dong, Shanmu|Wang, Li|Cui, Guanglei|Chen, Liquan|Chen, Xiao|Gu, Lin|Zhou, Xinhong|Xu, Hongxia|Wang, Haibo|Liu, Zhihong|Han, Pengxian|Yao, Jianhua| |
10 | One dimensional MnO2/titanium nitride nanotube coaxial arrays for high performance electrochemical capacitive energy storage | 期刊论文 | Dong, Shanmu|Wang, Haibo|Zhang, Xiaoying|Shang, Chaoqun|Cui, Guanglei|Chen, Liquan|Chen, Xiao|Gu, Lin|Zhou, Xinhong|Li, Lanfeng|Liu, Zhihong|Han, Pengxian|Xu, Hongxia|Yao, Jianhua| |
11 | A Carbon/Titanium Vanadium Nitride Composite for Lithium Storage | 期刊论文 | Cui, Guanglei|Gu, Lin|Thomas, Arne|Fu, Lijun|van Aken, Peter A.|Antonietti, Markus|Maier, Joachim| |
12 | Mesoporous Coaxial Titanium Nitride-Vanadium Nitride Fibers of Core-shell Structures for High-Performance Supercapacitors | 期刊论文 | Zhou, Xinhong|Xu, Hongxia|Zhu, Yuwei|Cui, Guanglei|Shang, Chaoqun|Gu, Lin|Dong, Shanmu|Chen, Xiao|Han, Pengxian|Li, Lanfeng|Yao, Jianhua|Liu, Zhihong| |
13 | Nitrogen-doping of chemically reduced mesocarbon microbead oxide for the improved performance of lithium ion batteries | 期刊论文 | Han, Pengxian|Cui, Guanglei|Yue, Yanhua|Zhang, Lixue|Xu, Hongxia|Liu, Zhihong|Zhang, Kejun|Zhang, Chuanjian|Dong, Shanmu|Ma, Wen| |
14 | 1D Coaxial Platinum/Titanium Nitride Nanotube Arrays with Enhanced Electrocatalytic Activity for the Oxygen Reduction Reaction: Towards Li-Air Batteries | 期刊论文 | Dong, Shanmu|Duan, Yulong|Xu, Hongxia|Yao, Jianhua|Zhang, Chuanjian|Zhang, Kejun|Cui, Guanglei|Chen, Liquan|Chen, Xiao|Wang, Shan|Gu, Lin|Zhang, Lixue|Wang, Xiaogang|Zhou, Xinhong|Liu, Zhihong|Han, Pengxian| |
15 | A renewable bamboo carbon/polyaniline composite for a high-performance supercapacitor electrode material | 期刊论文 | Zhou, Xinhong|Cui, Guanglei|Li, Lanfeng|Dong, Shanmu|Chen, Xiao|Han, Pengxian|Xu, Hongxia|Yao, Jianhua|Shang, Chaoqun|Liu, Zhihong| |
16 | Exfoliated graphite nanosheets/carbon nanotubes hybrid materials for superior performance supercapacitors | 期刊论文 | Wang, Haibo|Liu, Zhihong|Chen, Xiao|Han, Pengxian|Dong, Shanmu|Cui, Guanglei| |
17 | Graphene nanosheet-titanium nitride nanocomposite for high performance electrochemical capacitors without extra conductive agent addition | 期刊论文 | Han, Pengxian|Yue, Yanhua|Wang, Xiaogang|Ma, Wen|Dong, Shanmu|Zhang, Kejun|Zhang, Chuanjian|Cui, Guanglei| |
18 | A novel assembly of LiFePO4 microspheres from nanoplates | 期刊论文 | 崔光磊| |
19 | Graphene oxide nanoplatelets as excellent electrochemical active materials for VO2+/VO2+ and V2+/V3+ redox couples for a vanadium redox flow battery | 期刊论文 | Han, Pengxian|Wang, Haibo|Liu, Zhihong|Chen, Xiao|Ma, Wen|Yao, Jianhua|Zhu, Yuwei|Cui, Guanglei| |
20 | TiN/VN composites with core/shell structure for supercapacitors | 期刊论文 | Dong, Shanmu|Cui, Guanglei|Chen, Liquan|Chen, Xiao|Gu, Lin|Zhou, Xinhong|Wang, Haibo|Liu, Zhihong|Han, Pengxian|Yao, Jianhua|Wang, Li| |
21 | In situ synthesis of a graphene/titanium nitride hybrid material with highly improved performance for lithium storage | 期刊论文 | Yue, Yanhua|Han, Pengxian|He, Xiang|Zhang, Kejun|Liu, Zhihong|Zhang, Chuanjian|Dong, Shanmu|Gu, Lin|Cui, Guanglei| |
22 | A facile method of preparing mixed conducting LiFePO4/graphene composites for lithium-ion batteries | 期刊论文 | Wang, Li|Cui, Guanglei|Wang, Haibo|Liu, Zhihong|Xiao, Chen|Dong, Shanmu|Han, Pengxian|Zhang, Zhongyi|Zhang, Xiaoying|Bi, Caifeng| |
23 | Synthesis of Nitrogen-Doped MnO/Graphene Nanosheets Hybrid Material for Lithium Ion Batteries | 期刊论文 | Zhang, Kejun|Yao, Jianhua|Xu, Hongxia|Cui, Guanglei|Chen, Liquan|Han, Pengxian|Gu, Lin|Zhang, Lixue|Liu, Zhihong|Kong, Qingshan|Zhang, Chuanjian|Dong, Shanmu|Zhang, Zhongyi| |
24 | A biocompatible titanium nitride nanorods derived nanostructured electrode for biosensing and bioelectrochemical energy conversion | 期刊论文 | Dong, Shanmu|Zhang, Xiaoying|Li, Lanfeng|Shang, Chaoqun|Cui, Guanglei|Chen, Xiao|Gu, Lin|Zhang, Lixue|Zhou, Xinhong|Liu, Zhihong|Han, Pengxian|Xu, Hongxia|Yao, Jianhua| |
25 | Graphene oxide nanosheets/multi-walled carbon nanotubes hybrid as an excellent electrocatalytic material towards VO2+/VO2+ redox couples for vanadium redox flow batteries | 期刊论文 | Han, Pengxian|Yue, Yanhua|Liu, Zhihong|Xu, Wei|Zhang, Lixue|Xu, Hongxia|Dong, Shanmu|Cui, Guanglei| |