Fangyao Zhou
University of Science and Technology of China
38 Papers
24 Citations
Fangyao Zhou is an academic researcher from University of Science and Technology of China. The author has contributed to research in topics: Catalysis & Electrocatalyst. The author has an hindex of 17, co-authored 30 publications.
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Papers
Direct transformation of bulk copper into copper single sites via emitting and trapping of atoms
Yunteng Qu,Zhijun Li,Wenxing Chen,Yue Lin,Tongwei Yuan,Zhengkun Yang,Changming Zhao,Jing Wang,Chao Zhao,Xin Wang,Fangyao Zhou,Zhongbin Zhuang,Yuen Wu,Yadong Li +13 more
- 08 Oct 2018
TL;DR: Li et al. as mentioned in this paper showed that single-atom catalysts can be synthesized directly from bulk metals using an ammonia atmosphere, owing to the formation of volatile metal-ammonia species that are trapped by the nitrogen-rich carbon support.
842
Trifunctional Self-Supporting Cobalt-Embedded Carbon Nanotube Films for ORR, OER, and HER Triggered by Solid Diffusion from Bulk Metal.
TL;DR: A facile and upscalable strategy is demonstrated, to construct cobalt nanoparticle-encapsulated 3D conductive films (Co/CNFs), which were induced by in situ solid diffusion from bulk cobalt metal.
394
Thermal Emitting Strategy to Synthesize Atomically Dispersed Pt Metal Sites from Bulk Pt Metal.
Yunteng Qu,Bingxu Chen,Zhijun Li,Xuezhi Duan,Liguang Wang,Yue Lin,Tongwei Yuan,Fangyao Zhou,Yidong Hu,Zhengkun Yang,Changming Zhao,Jing Wang,Chao Zhao,Yanmin Hu,Geng Wu,Qinghua Zhang,Qian Xu,Bingyao Liu,Peng Gao,Rui You,Weixin Huang,Lirong Zheng,Lin Gu,Yuen Wu,Yadong Li +24 more
TL;DR: This work demonstrates a simple approach to generate atomically dispersed platinum via a thermal emitting method using bulk Pt metal as a precursor, significantly simplifying synthesis routes and minimizing synthesis costs.
327
Directly transforming copper (I) oxide bulk into isolated single-atom copper sites catalyst through gas-transport approach.
Zhengkun Yang,Bingxu Chen,Wenxing Chen,Yunteng Qu,Fangyao Zhou,Changming Zhao,Qian Xu,Qinghua Zhang,Xuezhi Duan,Yuen Wu,Yuen Wu +10 more
TL;DR: A gas-transport route to transform monolithic copper (I) oxide into copper single-atoms catalyst with a high activity for oxygen reduction with great potential in high-temperature applications is reported.