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Yuanyuan Shang
Researcher at Zhengzhou University
Publications - 104
Citations - 4820
Yuanyuan Shang is an academic researcher from Zhengzhou University. The author has contributed to research in topics: Carbon nanotube & Chemistry. The author has an hindex of 32, co-authored 78 publications receiving 3703 citations. Previous affiliations of Yuanyuan Shang include Harbin Institute of Technology & Peking University.
Papers
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Electro- and photodriven phase change composites based on wax-infiltrated carbon nanotube sponges.
Liangjie Chen,Ruqiang Zou,Wei Xia,Zhenpu Liu,Yuanyuan Shang,Jinlong Zhu,Yingxia Wang,Jianhua Lin,Dingguo Xia,Anyuan Cao +9 more
TL;DR: A multifunctional phase change composite in which the energy storage can be driven by small voltages or light illumination with high electro- to-heat or photo-to-thermal storage efficiencies and results in enhanced phase change enthalpy and thermal conductivity compared to pure paraffin wax.
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Colloidal Antireflection Coating Improves Graphene–Silicon Solar Cells
Enzheng Shi,Hongbian Li,Long Yang,Luhui Zhang,Zhen Li,Peixu Li,Yuanyuan Shang,Shiting Wu,Xinming Li,Jinquan Wei,Kunlin Wang,Hongwei Zhu,Dehai Wu,Ying Fang,Anyuan Cao +14 more
TL;DR: The antireflection treatment was realized by a simple spin-coating process, which significantly increased the short-circuit current density and the incident photon-to-electron conversion efficiency to about 90% across the visible range.
Journal ArticleDOI
Core-Double-Shell, Carbon Nanotube@Polypyrrole@MnO2 Sponge as Freestanding, Compressible Supercapacitor Electrode
Peixu Li,Yanbing Yang,Enzheng Shi,Qicang Shen,Yuanyuan Shang,Shiting Wu,Jinquan Wei,Kunlin Wang,Hongwei Zhu,Quan Yuan,Anyuan Cao,Dehai Wu +11 more
TL;DR: A three-component, hierarchical, bulk electrode with tailored microstructure and electrochemical properties that leads to enhanced supercapacitor performance including high specific capacitance (even under severe compression) and excellent cycling stability is reported.
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MWCNT/V2O5 core/shell sponge for high areal capacity and power density Li-ion cathodes.
TL;DR: The compressed sponge nanoarchitecture demonstrates exceptional robustness and energy-power characteristics for thin film cathode structures for electrochemical energy storage.
Journal ArticleDOI
Super-Stretchable Spring-Like Carbon Nanotube Ropes
Yuanyuan Shang,Xiaodong He,Yibin Li,Luhui Zhang,Zhen Li,Chunyan Ji,Enzheng Shi,Peixu Li,Ke Zhu,Qingyu Peng,Chao Wang,Xinjiang Zhang,Rongguo Wang,Jinquan Wei,Kunlin Wang,Hongwei Zhu,Dehai Wu,Anyuan Cao +17 more
TL;DR: Spring-like carbon nanotube ropes consisting of perfectly arranged loops are fabricated by spinning single-walled nanotubes films, and can sustain tensile strains as high as 285%.