12 Papers
4 Citations
Fan Li is an academic researcher from Tianjin University of Technology. The author has contributed to research in topics: Semiconductor & Chemistry. The author has an hindex of 3, co-authored 4 publications.
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Papers
Atomic Fe-Zn dual-metal sites for high-efficiency pH-universal oxygen reduction catalysis
Jie Xu,Shuhua Lai,Defeng Qi,Min Hu,Xianyun Peng,Yifan Liu,Wei Liu,Guangzhi Hu,Heng Xu,Fan Li,Chao Li,Jia He,Longchao Zhuo,Jiaqiang Sun,Yuan Qiu,Shusheng Zhang,Jun Luo,Xijun Liu +17 more
TL;DR: In this article, the authors demonstrated the preparation of atomically dispersed Fe-Zn pairs anchored on porous N-doped carbon frameworks, which works efficiently as ORR catalyst in the whole pH range.
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Construction of ZnIn2 S4 /CdS/PdS S-Scheme Heterostructure for Efficient Photocatalytic H2 Production.
TL;DR: In this paper , an all-sulfide ZnIn2S4/CdS/PdS heterojunction was constructed for the first time, where CdS and PdS nanoparticles anchor in the spaces of Zn2 S4 micro-flowers due to the confinement effects.
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Activating a Semiconductor–Liquid Junction via Laser‐Derived Dual Interfacial Layers for Boosted Photoelectrochemical Water Splitting
Jie Jian,Shiyuan Wang,Qian Ye,Fan Li,Guirong Su,Wei Hua Liu,Chang-Lin Qu,Feng Liu,Can Li,Li Hua Jia,Andrei A. Novikov,Vladimir A. Vinokurov,Daniel Harvey,Dmitry G. Shchukin,Dennis Friedrich,R. van de Krol,Hongqiang Wang +16 more
TL;DR: In this article , a dual interfacial layers, accessed via grafting laser-generated carbon dots with phenolic hydroxyl groups (LGCDs−PHGs), are experimentally verified effective, not only in generating the uniform layer of LGCDs with covalent anchoring for inhibited photocorrosion, but also in activating, respectively, the charge separation and transfer in each layer for boosted charge-carrier kinetics, resulting in FeNiOOH-LGCD-PHGs-MBVO photoanodes with a dual configuration with the photocurrent density of 6.08 mA cm−2 @ 1.23 VRHE, and operational stability up to 120 h @ 1
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Ultra-Thin SnS2-Pt Nanocatalyst for Efficient Hydrogen Evolution Reaction.
TL;DR: This work provides a new option for the application of TMDs materials in efficient hydrogen evolution reaction and can be easily extended to other catalysts with desired two-dimensional materials.
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