You Zhou
Hunan University
5 Papers
You Zhou is an academic researcher from Hunan University. The author has contributed to research in topics: Graphene & Catalysis. The author has an hindex of 2, co-authored 3 publications.
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Papers
Redox-active p-phenylenediamine functionalized reduced graphene oxide film through covalently grafting for ultrahigh areal capacitance Zn-ion hybrid supercapacitor
Yali Xu,Xiaohua Chen,Cong Huang,You Zhou,Bin-Bin Fan,Yanhua Li,Aiping Hu,Qunli Tang,Kun Huang +8 more
TL;DR: In this paper, the p-phenylenediamine (PPD) spacer is introduced into the interlayer of graphene film, which is favorable to enhance the inter-layer distance and consequently expose more ion accessible area.
63
Enhanced sodium and potassium ions storage of soft carbon by a S/O co-doped strategy
Yuping Shen,Cong Huang,Yanhua Li,You Zhou,Yali Xu,Yan Zhang,Aiping Hu,Qunli Tang,Xianyin Song,Changzhong Jiang,Xiaohua Chen +10 more
TL;DR: In this article, a simple ball mill-thermal treatment method is developed to prepare S/O co-doped soft carbons (SO-SC) using 3,4,9,10-perylene tetracarboxylic dianhydride (PTCDA) as precursor.
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Customizing oxygen–containing functional groups for reduced graphene oxide film supercapacitor with high volumetric performance
Xin Zhao,You Zhou,Yali Xu,Cong Huang,Yuping Shen,Yan Zhang,Zefu Fan,Qunli Tang,Aiping Hu,Xiaohua Chen +9 more
TL;DR: In this article , a customized strategy is proposed to increase the ratio of AOFG in reduced graphene oxide film for improving the electrochemical performance, which achieves a high gravimetric capacitance of 549.6 F g−1 with a high density of 1.5 g cm−3.
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Co nanoparticles anchored on the Co-Nx active centers grafted nitrogen-doped graphene with enhanced performance for lithium-sulfur battery
Qunli Tang,Qianer Xu,Haifeng Zhou,Qunli Tang,Aiping Hu,Yali Xu,Yuping Shen,Chao Kang,You Zhou,Xiaohua Chen +9 more
TL;DR: In this article, the sulfur host of Co nanoparticles anchored on the active centers grafted nitrogen-doped graphene (Co/Co-Nx@NG) with high catalytic activity and electrical conductivity was prepared via a simple and feasible in situ method.
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Osteogenic and anti-inflammatory effects of SLA titanium substrates doped with chitosan-stabilized selenium nanoparticles via a covalent coupling strategy.
TL;DR: Wang et al. as mentioned in this paper developed a modified titanium (Ti) surface by covalently immobilizing chitosan-stabilized selenium nanoparticles (CS-SeNPs) to sandblasted, large grit, and acid-etched (SLA) Ti substrates and further explored its surface characteristics as well as osteogenic and anti-inflammatory activities in vitro.
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