FELT

作品数:50被引量:70H指数:5
导出分析报告
相关领域:文化科学更多>>
相关作者:汤勇刘彬杨晓军万珍平袁伟更多>>
相关机构:华南理工大学哈尔滨工业大学香港理工大学广州文石信息科技有限公司更多>>
相关期刊:更多>>
相关基金:国家自然科学基金中国博士后科学基金广东省自然科学基金河北省自然科学基金更多>>
-
在结果中检索

检索结果分析

结果分析中...
选择条件:
  • 期刊=Journal of Energy Chemistryx
条 记 录,以下是1-5
全选清除导出
参考文献引证文献引用追踪
视图:
排序:
ZIF-derived holey electrode with enhanced mass transfer and N-rich catalytic sites for high-power and long-life vanadium flow batteries被引量:2
《Journal of Energy Chemistry》2022年第9期545-553,I0015,共10页Yongbin Liu Lihong Yu Xin Liu Le Liu Jingyu Xi 
supported by the National Natural Science Foundation of China(21576154);the Natural Science Foundation of Guangdong Province(2022A1515011999 and 2019A1515011955);the Shenzhen Basic Research Project(20200829101039001 and GXWD20201231165806004)。
Electrode materials with good redox kinetics,excellent mass transfer characteristics and ultra-high stability play a crucial role in reducing the life-cycle cost and prolonging the maintenance-free time of the vanadiu...
关键词:Vanadium flow battery Multi-scale pore electrode Graphite felt NITROGEN-DOPING Cycling stability 
P-doped electrode for vanadium flow battery with high-rate capability and all-climate adaptability被引量:1
《Journal of Energy Chemistry》2019年第8期55-59,I0003,共6页Lihong Yu Feng Lin Lin Xu Jingyu Xi 
supported by the National Natural Science Foundation of China(No.21576154);the Shenzhen Basic Research Project(Nos.JCYJ20170818115018000,JCYJ20170307154206288,JCYJ20170412170756603)
A phosphorous-doped graphite felt(PGF) is fabricated and examined as electrode for vanadium flow battery(VFB). P doping improves the electrolyte wettability of GF and induces more defect sites on its surface, resultin...
关键词:VANADIUM flow battery GRAPHITE FELT P doping HIGH-POWER ELECTRODE All-climate 
Detrimental role of hydrogen evolution and its temperature-dependent impact on the performance of vanadium redox flow batteries
《Journal of Energy Chemistry》2019年第5期57-62,共6页Abdulmonem Fetyan Gumaa A. El-Nagar Iver Lauermann Maike Schnucklake Jonathan Schneider Christina Roth 
a fellowship from the Alexander von Humboldt Foundation (AvH)
This paper addresses the damaging role of the parasitic hydrogen evolution reaction (HER) in the negative half-cell of a vanadium redox flow battery (VRFB) on state-of-the-art carbon felt electrodes at different tempe...
关键词:Hydrogen evolution Carbon FELT Degradation ELECTRODE Redox FLOW BATTERIES 
Broad temperature adaptability of vanadium redox flow battery-part4:Unraveling wide temperature promotion mechanism of bismuth for V^(2+)/V^(3+) couple被引量:2
《Journal of Energy Chemistry》2018年第5期1333-1340,共8页Yuchen Liu Feng Liang Yang Zhao Lihong Yu Le Liu Jingyu Xi 
financial support from the National Natural Science Foundation of China (No. 21576154);the Open Fund of The State Key Laboratory of Refractories and Metallurgy (No. G201809);the Shenzhen Basic Research Project (Nos. JCYJ20170412170756603 and JCYJ20170307152754218)
Vanadium flow battery (VFB) is a fast going and promising system for large-scale stationary energy stor- age. However, drawbacks such as low power density and narrow temperature window caused by poor catalytic activ...
关键词:Vanadium flow battery Graphite felt electrode BISMUTH Hydrogen evolution reaction Wide temperature 
Sucrose pyrolysis assembling carbon nanotubes on graphite felt using for vanadium redox flow battery positive electrode被引量:2
《Journal of Energy Chemistry》2018年第2期451-454,共4页Haitao Yang Chuanlin Fan Qingshan Zhu 
financial support of the National Natural Science Foundation of China (project no. 51504231, 51504232, 51774262 and 21325628);Open Project of State Key Laboratory of Complex Nonferrous Metal Resources Clean Utilization (project no. CNMRCUKF1704)
In the present paper, multi-walled carbon nanotubes(MWCNTs) are successfully assembled on graphite felt(GF) using sucrose pyrolysis method for the first time. The in situ formed pyrolytic carbon is chosen as the b...
关键词:Vanadium redox flow batteries Multi-walled carbon nanotubes Sucrose pyrolysis Positive electrode materials REVERSIBILITY 
全选清除导出
共1页<1>
检索报告 对象比较 聚类工具 使用帮助 返回顶部