Cheng Yang
Soochow University (Suzhou)
9 Papers
Cheng Yang is an academic researcher from Soochow University (Suzhou). The author has contributed to research in topics: Lithium & Particle. The author has an hindex of 7, co-authored 8 publications.
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Papers
A hierarchical nickel–carbon structure templated by metal–organic frameworks for efficient overall water splitting
Hao Sun,Yuebin Lian,Cheng Yang,Likun Xiong,Pengwei Qi,Qiaoqiao Mu,Xiaohui Zhao,Jun Guo,Zhao Deng,Yang Peng +9 more
TL;DR: In this paper, a hierarchical Ni-carbon composite, fabricated by growing sheet-like Ni-MOFs on commercial nickel foam prior to high-temperature annealing, was used as a highly efficient bifunctional catalyst.
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Phase and Morphology Transformation of MnO2 Induced by Ionic Liquids toward Efficient Water Oxidation
Gangbin Yan,Yuebin Lian,Yindong Gu,Cheng Yang,Hao Sun,Qiaoqiao Mu,Qin Li,Wei Zhu,Xusheng Zheng,Muzi Chen,Junfa Zhu,Zhao Deng,Yang Peng +12 more
TL;DR: Water oxidation through the Mn4Ca-oxo complex in photosystem II has fascinated many researchers because of its high efficiency and low energy input; therefore, it has triggered great interest in va...
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γ-Fe2O3 nanoparticles embedded in porous carbon fibers as binder-free anodes for high-performance lithium and sodium ion batteries
Yujie Chen,Xietao Yuan,Cheng Yang,Yuebin Lian,Amir Abdul Razzaq,Rahim Shah,Jun Guo,Xiaohui Zhao,Yang Peng,Zhao Deng +9 more
TL;DR: In this paper, a facile strategy of electrospinning has been employed to fabricate freestanding anodes of γ-Fe2O3/porous carbon fibers for both lithium and sodium ion batteries, in which nanoparticles ranging from 50 to 150nm were in-situ formed and embedded in the porous carbon fibers.
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A Double-Buffering Strategy to Boost the Lithium Storage of Botryoid MnO x /C Anodes.
Cheng Yang,Yu Yao,Yuebin Lian,Yujie Chen,Rahim Shah,Xiaohui Zhao,Muzi Chen,Yang Peng,Zhao Deng +8 more
TL;DR: A facile approach is presented, by electrospinning a manganese-based metal organic framework (Mn-MOF), to fabricate yolk-shell MnOx nanostructures within carbon nanofibers in a botryoid morphology, achieving a so-called double-buffering for cyclic volume fluctuation.
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Redox-Driven Lithium Perfusion to Fabricate Li@Ni-Foam Composites for High Lithium-Loading 3D Anodes.
Yong Ma,Yixiang Jing,Yuting Gu,Pengwei Qi,Yuebin Lian,Cheng Yang,Amir Abdul Razzaq,Xiaohui Zhao,Yang Peng,Xiangqiong Zeng,Jiusheng Li,Zhao Deng +11 more
TL;DR: In conclusion, this study offers important insights into the driving of thermal Li perfusion through appropriate material and surface design for achieving safe and stable lithium metal anodes.
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