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Pengfei Yin
Researcher at City University of Hong Kong
Publications - 16
Citations - 900
Pengfei Yin is an academic researcher from City University of Hong Kong. The author has contributed to research in topics: Nanorod & Catalysis. The author has an hindex of 8, co-authored 13 publications receiving 307 citations. Previous affiliations of Pengfei Yin include Nanyang Technological University & Tianjin University.
Papers
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Journal ArticleDOI
MOF-Based Hierarchical Structures for Solar-Thermal Clean Water Production.
Qinglang Ma,Pengfei Yin,Meiting Zhao,Zhiyong Luo,Ying Huang,Qiyuan He,Yifu Yu,Yifu Yu,Zhengqing Liu,Zhaoning Hu,Bo Chen,Hua Zhang +11 more
TL;DR: The MHS possesses an excellent anti-oil-fouling property, ensuring its superior water evaporation performance even in oil-contaminated water, and is a promising material for the solar-thermal water production.
Journal ArticleDOI
Ag@MoS2 Core-Shell Heterostructure as SERS Platform to Reveal the Hydrogen Evolution Active Sites of Single-Layer MoS2.
Junze Chen,Guigao Liu,Yue-zhou Zhu,Min Su,Pengfei Yin,Pengfei Yin,Xue-Jun Wu,Qipeng Lu,Chaoliang Tan,Meiting Zhao,Zhengqing Liu,Weimin Yang,Hai Li,Gwang-Hyeon Nam,Liping Zhang,Zhenhua Chen,Xiao Huang,Petar M. Radjenovic,Wei Huang,Wei Huang,Wei Huang,Zhong-Qun Tian,Jian-Feng Li,Hua Zhang +23 more
TL;DR: In this paper, a wet-chemical synthetic method was developed to prepare the single-layer MoS2-coated polyhedral Ag core-shell heterostructure (Ag@MoS2) with tunable sizes as efficient catalysts for the electrochemical hydrogen evolution reaction (HER).
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Rational Design of MOF-Based Hybrid Nanomaterials for Directly Harvesting Electric Energy from Water Evaporation.
TL;DR: A novel metal-organic-framework-based hybrid nanomaterial is delicately designed and synthesized by the growth of UIO-66 nanoparticles on 2D AlOOH nanoflakes, which can harvest electric energy from natural water evaporation.
Journal ArticleDOI
Phase-Selective Epitaxial Growth of Heterophase Nanostructures on Unconventional 2H-Pd Nanoparticles
Yiyao Ge,Yiyao Ge,Zhiqi Huang,Zhiqi Huang,Chongyi Ling,Bo Chen,Bo Chen,Guigao Liu,Ming Zhou,Jiawei Liu,Xiao Zhang,Hongfei Cheng,Guanghua Liu,Yonghua Du,Cheng-Jun Sun,Chaoliang Tan,Jingtao Huang,Pengfei Yin,Zhanxi Fan,Ye Chen,Nailiang Yang,Hua Zhang +21 more
TL;DR: The fcc-2H-fcc heterophase Pd@Au nanorods show excellent performance toward the electrochemical carbon dioxide reduction reaction (CO2RR) for production of carbon monoxide with Faradaic efficiencies of over 90% in an exceptionally wide applied potential window, which is among the best reported CO2RR catalysts in H-type electrochemical cells.
Journal ArticleDOI
Synthesis of Palladium-Based Crystalline@Amorphous Core-Shell Nanoplates for Highly Efficient Ethanol Oxidation.
Pengfei Yin,Pengfei Yin,Pengfei Yin,Ming Zhou,Junze Chen,Chaoliang Tan,Guigao Liu,Qinglang Ma,Qinbai Yun,Xiao Zhang,Hongfei Cheng,Qipeng Lu,Bo Chen,Ye Chen,Zhicheng Zhang,Jingtao Huang,Dianyi Hu,Jie Wang,Qing Liu,Zhiyong Luo,Zhengqing Liu,Yiyao Ge,Xue-Jun Wu,Xi-Wen Du,Hua Zhang +24 more
TL;DR: The synthesis of binary (Pd-P) crystalline@amorphous heterostructurednanoplates using Cu3- χ P nanoplates as templates, via cation exchange, is reported, resulting in a nanoplate that possesses a crystalline core and an amorphous shell with the same elemental components, referred to as c-PD-P@a-P d-P.