Soft Template‐Based Synthesis of Mesoporous Phosphorus‐ and Boron‐Codoped NiFe‐Based Alloys for Efficient Oxygen Evolution Reaction

Controlling the morphology, composition, and crystalline phase of mesoporous nonnoble metal catalysts is essential for improving their performance. Herein, well‐defined P‐ and B‐codoped NiFe alloy mesoporous nanospheres (NiFeB‐P MNs) with an adjustable Ni/Fe ratio and large mesopores (11 nm) are syn...

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Vydáno v:Small (Weinheim an der Bergstrasse, Germany) Ročník 18; číslo 33; s. e2203411 - n/a
Hlavní autoři: Kang, Yunqing, Guo, Yanna, Zhao, Jingjing, Jiang, Bo, Guo, Jingru, Tang, Yi, Li, Hexing, Malgras, Victor, Amin, Mohammed A., Nara, Hiroki, Sugahara, Yoshiyuki, Yamauchi, Yusuke, Asahi, Toru
Médium: Journal Article
Jazyk:angličtina
Vydáno: Weinheim Wiley Subscription Services, Inc 01.08.2022
Wiley-VCH Verlag
Témata:
Catalytic activity
Chemical reduction
Chemical Sciences
Chemical synthesis
Electrocatalysts
Electrolytes
Electronic structure
Engineering Sciences
Intermetallic compounds
Iron compounds
Material chemistry
mesoporous metals
Micro and nanotechnologies
Microelectronics
Nanospheres
Nanotechnology
Nickel base alloys
Nickel compounds
nonmetallic element doping
nonnoble metal borides
Oxygen evolution reactions
Phosphines
soft‐template‐based synthesis
mesoporous metals non-noble metals alloy soft-templating synthesis nonmetalelements doping
mesoporous metals
nonmetalelements doping
non-noble metals alloy
soft-templating synthesis
ISSN:1613-6810, 1613-6829, 1613-6829
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Shrnutí:Controlling the morphology, composition, and crystalline phase of mesoporous nonnoble metal catalysts is essential for improving their performance. Herein, well‐defined P‐ and B‐codoped NiFe alloy mesoporous nanospheres (NiFeB‐P MNs) with an adjustable Ni/Fe ratio and large mesopores (11 nm) are synthesized via soft‐template‐based chemical reduction and a subsequent phosphine‐vapor‐based phosphidation process. Earth‐abundant NiFe‐based materials are considered promising electrocatalysts for the oxygen evolution reaction (OER) because of their low cost and high intrinsic catalytic activity. The resulting NiFeB‐P MNs exhibit a low OER overpotential of 252 mV at 10 mA cm−2, which is significantly smaller than that of B‐doped NiFe MNs (274 mV) and commercial RuO2 (269 mV) in alkaline electrolytes. Thus, this work highlights the practicality of designing mesoporous nonnoble metal structures and the importance of incorporating P in metallic‐B‐based alloys to modify their electronic structure for enhancing their intrinsic activity. The well‐defined mesoporous P‐ and B‐ codoped NiFe alloy nanospheres with adjustable Ni/Fe ratio and tunable pore size are successfully synthesized. The addition of P to the system allows for the tuning of the electronic structure of the active sites and enhances the electrical conductivity, leading to a significant increase in intrinsic oxygen evolution reaction performance.
Bibliografie:ObjectType-Article-1
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ISSN:1613-6810
1613-6829
1613-6829
DOI:10.1002/smll.202203411