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Bin Liu
Researcher at Tianjin University
Publications - 54
Citations - 2720
Bin Liu is an academic researcher from Tianjin University. The author has contributed to research in topics: Battery (electricity) & Zinc. The author has an hindex of 15, co-authored 45 publications receiving 1252 citations. Previous affiliations of Bin Liu include Shaanxi Normal University.
Papers
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Journal ArticleDOI
Stable high efficiency two-dimensional perovskite solar cells via cesium doping
Xu Zhang,Xu Zhang,Xu Zhang,Xiaodong Ren,Bin Liu,Rahim Munir,Xuejie Zhu,Dong Yang,Jianbo Li,Yucheng Liu,Detlef-M. Smilgies,Ruipeng Li,Zhou Yang,Tianqi Niu,Xiuli Wang,Aram Amassian,Kui Zhao,Shengzhong Liu,Shengzhong Liu +18 more
TL;DR: In this paper, the authors demonstrate cesium cation (Cs+) doped 2D (BA)2(MA)3Pb4I13 perovskite solar cells giving a power conversion efficiency (PCE) as high as 13.7%.
Journal ArticleDOI
Decoupling electrolytes towards stable and high-energy rechargeable aqueous zinc–manganese dioxide batteries
Cheng Zhong,Bin Liu,Jia Ding,Xiaorui Liu,Yuwei Zhong,Yuan Li,Changbin Sun,Xiaopeng Han,Yida Deng,Naiqin Zhao,Wenbin Hu +10 more
TL;DR: In this article, an electrolyte-decoupling strategy was proposed to maximize the full potential of Zn-MnO2 batteries by simultaneously enabling the optimal redox chemistry of both the Zn and MnO2 electrodes.
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Grain-Boundary-Rich Copper for Efficient Solar-Driven Electrochemical CO2 Reduction to Ethylene and Ethanol.
Zhiqiang Chen,Tuo Wang,Bin Liu,Dongfang Cheng,Congling Hu,Gong Zhang,Wenjin Zhu,Huaiyuan Wang,Zhi-Jian Zhao,Jinlong Gong +9 more
TL;DR: In-situ attenuated total reflection surface-enhanced infrared absorption spectroscopy unveils that the existence of grain boundaries enhances the adsorption of the key intermediate (*CO) on the copper surface to boost the further CO2 reduction.
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A Rechargeable Zn–Air Battery with High Energy Efficiency and Long Life Enabled by a Highly Water-Retentive Gel Electrolyte with Reaction Modifier
TL;DR: The optimized GPE enables flexible ZABs exhibiting an exceptionally low charge potential, a long cycling time of 200 h, a high energy efficiency, and rugged reliability under different extreme working conditions, and demonstrates their excellent practicability as flexible power sources.
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Enriched Surface Oxygen Vacancies of Photoanodes by Photoetching with Enhanced Charge Separation.
TL;DR: In this paper, a facile photoetching approach is described that alleviates the negative effects from bulk defects by confining the oxygen vacancy (Ovac) at the surface of BiVO4 photoanode.