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- Title
ZIF‐Mg(OH)<sub>2</sub> Dual Template Assisted Self‐Confinement of Small PtCo NPs as Promising Oxygen Reduction Reaction in PEM Fuel Cell.
- Authors
Chen, Zhenyu; Hao, Chao; Yan, Bowen; Chen, Qiuyan; Feng, Huiyan; Mao, Xiaoqing; Cen, Jianmei; Tian, Zhi Qun; Tsiakaras, Panagiotis; Shen, Pei Kang
- Abstract
Traditional calcination usually causes sintering of Pt, which diminishes Pt exposure in proton exchange membrane fuel cell (PEMFC) electrodes. In the present work, a facile self‐confined method for synthesizing highly dispersed PtCo‐alloy on Co, N co‐doped mesoporous carbon (PCN‐MC) is developed via a dual‐template strategy. Owing to the co‐confined effect of Zn in the bimetallic zeolite‐based imidazolate framework (ZIF) and Mg(OH)2 template, ultra‐fine 2.7 nm PtCo‐alloy with 2–3 atomic‐layer Pt‐skin nanoparticles are obtained. By adjusting the Co/Zn feeding‐ratio in the bimetallic ZIF at 8/7, the alloying degree and nanoparticle size are optimized to achieve an outstanding oxygen reduction reaction activity with a high mass activity (MA) of 0.956 A mgPt−1 in 0.1 m HClO4, about 7.5‐fold of that of commercial Pt/C. Furthermore, notable durability is also achieved with 81% retention of the initial MA after 30k cycles conducted between 0.6–1.0 V (versus reversible hydrogen electrode). These features are also verified by a H2–Air fuel cell test with an excellent combination of mass activity, power density, and durability. This strategy provides a feasible route for the large‐scale synthesis of highly‐dispersed PtCo‐alloy catalysts.
- Subjects
OXYGEN reduction; PROTON exchange membrane fuel cells; NANOPARTICLE size; STANDARD hydrogen electrode
- Publication
Advanced Energy Materials, 2022, Vol 12, Issue 32, p1
- ISSN
1614-6832
- Publication type
Article
- DOI
10.1002/aenm.202201600