Catalytic activity of Ni_3Mo surfaces for hydrogen evolution reaction: A density functional theory approach

Pham Nguyet N. T.; Kang Sung Gu; Kim Hyoung-Juhn; Pak Chanho; Han Byungchan; Lee Seung Geol

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Catalytic activity of Ni_3Mo surfaces for hydrogen evolution reaction: A density functional theory approach

机译：氢进化反应Ni_3MO表面的催化活性：密度函数理论方法

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Ni3Mo alloys are promising non-platinum group metal catalyst candidates for hydrogen evolution reactions in alkaline solution. The Volmer step for the hydrogen evolution reaction in alkaline medium was examined using density functional theory (DFT). We examined hydrogen adsorption on Ni3Mo surfaces [(0 0 1), (0 2 0), (1 0 0), and (1 0 1)]. Ni3Mo(1 0 1) showed the fastest dissociation of water in the first step of the HER among the investigated Ni3Mo surfaces. Hydrogen atom chemisorption was a key reaction that determines HER performance; the adsorption free energies revealed that Ni3Mo(1 01) has a higher electrocatalytic activity than the other surfaces of Ni3Mo. Our work provides insight into the excellent HER catalytic performance of Ni3Mo in alkaline solution and is expected to inform the design of efficient binary non-PGM catalyst for the HER.

机译：Ni3MO合金是碱性溶液中的氢进化反应的非铂族金属催化剂候选。使用密度函数理论（DFT）检查碱培养基中氢进化反应的活力步骤。我们在Ni3MO表面[（01），（0 2 0），（1 0 0）和（1 0 1）]上检查了氢吸附。 Ni3Mo（1 0 1）显示了在研究的Ni3Mo表面中的第一步中的水最快解离。氢原子化学吸附是一种决定她性能的关键反应;吸附性能量显示Ni3Mo（1 01）具有比Ni3Mo的其他表面更高的电催化活性。我们的作品在碱性溶液中展示了镍氢镍镍Ni3Mo的优异催化性能，预计将向她们提供高效二元非PGM催化剂的设计。

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《Applied Surface Science》 |2021年第30期|147894.1-147894.7|共7页
作者
Pham Nguyet N. T.; Kang Sung Gu; Kim Hyoung-Juhn; Pak Chanho; Han Byungchan; Lee Seung Geol;
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作者单位

Pusan Natl Univ Sch Chem Engn 2 Busandaehak Ro 63 Beon Gil Busan 46241 South Korea;

Univ Ulsan Sch Chem Engn 93 Daehak Ro Ulsan 44610 South Korea;

Korea Inst Sci & Technol Ctr Hydrogen Fuel Cell Res Hwarang Ro 14 Gil 5 Seoul 02792 South Korea;

Gwangju Inst Sci & Technol Inst Integrated Technol Sch Integrated Technol Grad Program Energy Technol Gwangju 61005 South Korea;

Yonsei Univ Dept Chem & Biomol Engn 50 Yonsei Ro Seoul 03722 South Korea;

Pusan Natl Univ Sch Chem Engn 2 Busandaehak Ro 63 Beon Gil Busan 46241 South Korea|Pusan Natl Univ Dept Organ Mat Sci & Engn 2 Busandaehak Ro 63 Beon Gil Busan 46241 South Korea;

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正文语种 eng
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关键词
Ni3Mo; Hydrogen evolution reactions; Catalytic water dissociation; Density functional theory; Polymer electrolyte membrane fuel cells;

机译：Ni3Mo;氢气进化反应;催化水解离;密度函数理论;聚合物电解质膜燃料电池;

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Catalytic activity of Ni_3Mo surfaces for hydrogen evolution reaction: A density functional theory approach

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