H
Hua Zhang
Researcher at Chinese Academy of Sciences
Publications - 1778
Citations - 144014
Hua Zhang is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Medicine & Graphene. The author has an hindex of 163, co-authored 1503 publications receiving 116769 citations. Previous affiliations of Hua Zhang include Shenzhen University & Zhengzhou University.
Papers
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Journal ArticleDOI
Ligand-Exchange-Induced Amorphization of Pd Nanomaterials for Highly Efficient Electrocatalytic Hydrogen Evolution Reaction.
Hongfei Cheng,Nailiang Yang,Nailiang Yang,Guigao Liu,Yiyao Ge,Jingtao Huang,Qinbai Yun,Yonghua Du,Yonghua Du,Cheng-Jun Sun,Bo Chen,Jiawei Liu,Hua Zhang,Hua Zhang +13 more
TL;DR: The discovery of a unique thiol molecule is reported, namely bismuthiol I, which can induce the transformation of Pd nanomaterials from face-centered-cubic phase into amorphous phase without destroying their integrity.
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Organic carbonates from natural sources
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Self-gating in semiconductor electrocatalysis
Yongmin He,Qiyuan He,Luqing Wang,Chao Zhu,Prafful Golani,Albertus D. Handoko,Xuechao Yu,Caitian Gao,Mengning Ding,Xuewen Wang,Fucai Liu,Qingsheng Zeng,Peng Yu,Shasha Guo,Boris I. Yakobson,Liang Wang,Zhi Wei Seh,Zhuhua Zhang,Minghong Wu,Qi Jie Wang,Qi Jie Wang,Hua Zhang,Hua Zhang,Zheng Liu +23 more
TL;DR: This study revisits the semiconductor–electrolyte interface and unravels a universal self-gating phenomenon through microcell-based in situ electronic/electrochemical measurements to clarify the electronic-conduction modulation of semiconductors during the electrocatalytic reaction.
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Copper-based ternary and quaternary semiconductor nanoplates : templated synthesis, characterization, and photoelectrochemical properties
TL;DR: A universal template-mediated method for preparing copper-based ternary and quaternary chalcogenide nanoplates by using a pre-synthesized CuS nanoplate as the starting template, which provides future opportunities for fabrication of cost-effective photovoltaic devices based on 2D semiconductors.
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A Robust Hybrid Zn-Battery with Ultralong Cycle Life
Bing Li,Junye Quan,Adeline Loh,Jianwei Chai,Ye Chen,Chaoliang Tan,Xiaoming Ge,T. S. Andy Hor,T. S. Andy Hor,Zhaolin Liu,Hua Zhang,Yun Zong +11 more
TL;DR: A robust hybrid zinc-battery that makes use of transition-metal-based redox reaction (M-O-OH → M-O, M = Ni and Co) and oxygen reduction reaction (ORR) to deliver more electrochemical energies of comparably higher voltage with much longer cycle life is reported.