Yu Shen
Nanjing University
21 Papers
92 Citations
Yu Shen is an academic researcher from Nanjing University. The author has contributed to research in topics: Nanosheet & Mesoporous material. The author has an hindex of 9, co-authored 21 publications.
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Papers
In-Situ-Grown Mg(OH)2-Derived Hybrid α-Ni(OH)2 for Highly Stable Supercapacitor
TL;DR: In this article, a structure-stable Ni(OH)2 grown on Ni foam via in situ ion exchange reaction with Mg(OH)-2 as sacrificial substrate and effective dopant was obtained.
217
Microwave-assisted conversion of biomass wastes to pseudocapacitive mesoporous carbon for high-performance supercapacitor
Xiangkun Bo,Kun Xiang,Yu Zhang,Yu Shen,Shanyong Chen,Yongzheng Wang,Mingjiang Xie,Xuefeng Guo +7 more
TL;DR: In this article, a mesoporous carbon (MAC) was fabricated by microwave treatment from the biomass waste of camellia oleifera, which has a high capacity of 275 F/g, large energy density of 9.55 W/kg and excellent cycling stability with 99% capacitance retention after 10000 continuous charge-discharge.
176
In situ formation/carbonization of quinone-amine polymers towards hierarchical porous carbon foam with high faradaic activity for energy storage
TL;DR: In this paper, a strategy based on the design of faradaic redox active sites has been developed to synthesize nitrogen and oxygen co-doped carbon foam with a hierarchical porous structure.
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Fabrication of TiO2@carbon core–shell nanosheets for advanced lithium-ion batteries with excellent cyclability
Yongzheng Wang,Shuyi Duan,Shuyi Duan,Zheng-Fang Tian,Zheng-Fang Tian,Yu Shen,Mingjiang Xie,Xiangke Guo,Xiangke Guo,Xuefeng Guo,Xuefeng Guo +10 more
TL;DR: TiO2@carbon with a nanosheet morphology and core-shell structure was constructed by self-assembly/carbonization of P123, CTAB and exfoliated titanate nanosheets.
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Fabrication of highly dispersed/active ultrafine Pd nanoparticle supported catalysts: a facile solvent-free in situ dispersion/reduction method
Yu Shen,Xiangkun Bo,Zhengfang Tian,Yongzheng Wang,Xiangke Guo,Mingjiang Xie,Fei Gao,Ming Lin,Xuefeng Guo,Xuefeng Guo,Weiping Ding +10 more
TL;DR: In this article, a solvent-free solid-state dispersion route was proposed to fabricate highly dispersed ultrafine palladium nanoparticle supported catalysts, and the as-prepared a1Pd/HAP-SSD exhibits higher activity for phenol hydrogenation than the obtained by a traditional wet impregnation method, due to the highly dispersed Pd0 nanoparticles obtained by in situ dispersion/reduction.
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