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Bin Wang
Researcher at Shaanxi Normal University
Publications - 28
Citations - 3325
Bin Wang is an academic researcher from Shaanxi Normal University. The author has contributed to research in topics: Electrocatalyst & Oxygen evolution. The author has an hindex of 20, co-authored 28 publications receiving 2002 citations. Previous affiliations of Bin Wang include China University of Petroleum & Tsinghua University.
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Defect Engineering toward Atomic Co–Nx–C in Hierarchical Graphene for Rechargeable Flexible Solid Zn-Air Batteries
TL;DR: This work demonstrates the direct utilization of the intrinsic structural defects in nanocarbon to generate atomically dispersed Co-Nx -C active sites via defect engineering and provides a new concept and effective methodology for the full utilization ofnanocarbon materials with various structural features and further development of advanced energy materials.
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A Bimetallic Zn/Fe Polyphthalocyanine-Derived Single-Atom Fe-N-4 Catalytic Site:A Superior Trifunctional Catalyst for Overall Water Splitting and Zn-Air Batteries
Yuan Pan,Yuan Pan,Shoujie Liu,Shoujie Liu,Kaian Sun,Xin Chen,Bin Wang,Konglin Wu,Konglin Wu,Xing Cao,Weng-Chon Cheong,Rongan Shen,Aijuan Han,Zheng Chen,Lirong Zheng,Jun Luo,Yan Lin,Yunqi Liu,Dingsheng Wang,Qing Peng,Qiang Zhang,Chen Chen,Yadong Li +22 more
TL;DR: A polymerization-pyrolysis-evaporation method is a general strategy for preparing M SAs/NPC (M=Co, Ni, Mn), bringing new perspectives for designing various SAMs for catalytic application.
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Bifunctional Transition Metal Hydroxysulfides: Room-Temperature Sulfurization and Their Applications in Zn-Air Batteries.
TL;DR: Transition metal hydroxysulfides are presented as bifunctional OER/ORR electrocatalysts for Zn-air batteries with high intrinsic reactivity and electrical conductivity and a long cycling life, which is much better than Pt and Ir-based electrocatalyst in Zn -air batteries.
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A porphyrin covalent organic framework cathode for flexible Zn–air batteries
TL;DR: In this article, a porphyrin covalent organic framework (POF) was designed and applied as a cathode electrocatalyst for flexible Zn-air batteries.
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A Nanosized CoNi Hydroxide@Hydroxysulfide Core-Shell Heterostructure for Enhanced Oxygen Evolution.
TL;DR: This work fabricates a core-shell heterostructure with an ultrathin shell (4 nm) and favorable exposure of active sites, resulting in a moderately regulated electronic structure, remarkably facilitated charge transfer, fully exposedactive sites, and a strongly coupled heterointerface for energy electrocatalysis.