Tailoring the d-band center by borophene subunits in chromic diboride toward the hydrogen evolution reaction

Transition metal diborides (TMdBs AlB 2 -type P 6/ mmm ) electrocatalysts have aroused much attention toward the hydrogen evolution reaction (HER), because MoB 2 ( P 6/ mmm ) exhibits superior catalytic activity. However, the understanding of the activity in the different lattice planes of TMdBs is...

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Published in	Inorganic chemistry frontiers Vol. 8; no. 23; pp. 513 - 5138
Main Authors	Chen, Yanli, Rong, Jiashi, Wang, Zizhun, Tao, Qiang, Gan, Quan, Wang, Fei, Ye, Yanping, Liu, Xiaoyan, Cao, Jian, Fan, Hougang, Wei, Maobin, Zhang, Wei, Zhu, Pinwen, Yang, Lili, Yang, Jinghai
Format	Journal Article
Language	English
Published	London Royal Society of Chemistry 23.11.2021
Subjects	Basal plane Borophene Catalysts Catalytic activity Chromium borides Electrocatalysts Electronic structure High temperature Hydrogen evolution reactions Inorganic chemistry Noble metals Transition metals
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Abstract	Transition metal diborides (TMdBs AlB 2 -type P 6/ mmm ) electrocatalysts have aroused much attention toward the hydrogen evolution reaction (HER), because MoB 2 ( P 6/ mmm ) exhibits superior catalytic activity. However, the understanding of the activity in the different lattice planes of TMdBs is still limited, which impedes the accurate design of new superior catalyst based on TMdBs. In this work, a borophene subunit was utilized to form AlB 2 -type CrB 2 ( P 6/ mmm ) for modulating the d-band center. It was revealed that the d-band center in CrB 2 has almost a linear relation with the Δ G H* value in the different lattice planes of metallic Cr and CrB 2 , and that the modulation of the electronic structure by borophene subunits was more effective at the edge side than in the basal plane of CrB 2 . Single-phase CrB 2 was synthesized via a high pressure and high temperature (HPHT) approach as an electrocatalyst for HER. The performance of CrB 2 revealed a higher catalytic activity with overpotentials of 355 and 522 mV at 10 and 200 mA cm −2 in acidic conditions and a Tafel slope of 77.84 mV dec −1 . These results indicate that CrB 2 is a promising alternative to noble metal-based catalysts, and that modulating the d-band center by borophene subunits is an efficient way to develop novel Cr-based catalysts. Borophene subunits modulate the d-band center in different planes for improving the HER performance.
AbstractList	Transition metal diborides (TMdBs AlB 2 -type P 6/ mmm ) electrocatalysts have aroused much attention toward the hydrogen evolution reaction (HER), because MoB 2 ( P 6/ mmm ) exhibits superior catalytic activity. However, the understanding of the activity in the different lattice planes of TMdBs is still limited, which impedes the accurate design of new superior catalyst based on TMdBs. In this work, a borophene subunit was utilized to form AlB 2 -type CrB 2 ( P 6/ mmm ) for modulating the d-band center. It was revealed that the d-band center in CrB 2 has almost a linear relation with the Δ G H* value in the different lattice planes of metallic Cr and CrB 2 , and that the modulation of the electronic structure by borophene subunits was more effective at the edge side than in the basal plane of CrB 2 . Single-phase CrB 2 was synthesized via a high pressure and high temperature (HPHT) approach as an electrocatalyst for HER. The performance of CrB 2 revealed a higher catalytic activity with overpotentials of 355 and 522 mV at 10 and 200 mA cm −2 in acidic conditions and a Tafel slope of 77.84 mV dec −1 . These results indicate that CrB 2 is a promising alternative to noble metal-based catalysts, and that modulating the d-band center by borophene subunits is an efficient way to develop novel Cr-based catalysts. Transition metal diborides (TMdBs AlB 2 -type P 6/ mmm ) electrocatalysts have aroused much attention toward the hydrogen evolution reaction (HER), because MoB 2 ( P 6/ mmm ) exhibits superior catalytic activity. However, the understanding of the activity in the different lattice planes of TMdBs is still limited, which impedes the accurate design of new superior catalyst based on TMdBs. In this work, a borophene subunit was utilized to form AlB 2 -type CrB 2 ( P 6/ mmm ) for modulating the d-band center. It was revealed that the d-band center in CrB 2 has almost a linear relation with the Δ G H* value in the different lattice planes of metallic Cr and CrB 2 , and that the modulation of the electronic structure by borophene subunits was more effective at the edge side than in the basal plane of CrB 2 . Single-phase CrB 2 was synthesized via a high pressure and high temperature (HPHT) approach as an electrocatalyst for HER. The performance of CrB 2 revealed a higher catalytic activity with overpotentials of 355 and 522 mV at 10 and 200 mA cm −2 in acidic conditions and a Tafel slope of 77.84 mV dec −1 . These results indicate that CrB 2 is a promising alternative to noble metal-based catalysts, and that modulating the d-band center by borophene subunits is an efficient way to develop novel Cr-based catalysts. Borophene subunits modulate the d-band center in different planes for improving the HER performance. Transition metal diborides (TMdBs AlB2-type P6/mmm) electrocatalysts have aroused much attention toward the hydrogen evolution reaction (HER), because MoB2 (P6/mmm) exhibits superior catalytic activity. However, the understanding of the activity in the different lattice planes of TMdBs is still limited, which impedes the accurate design of new superior catalyst based on TMdBs. In this work, a borophene subunit was utilized to form AlB2-type CrB2 (P6/mmm) for modulating the d-band center. It was revealed that the d-band center in CrB2 has almost a linear relation with the ΔGH* value in the different lattice planes of metallic Cr and CrB2, and that the modulation of the electronic structure by borophene subunits was more effective at the edge side than in the basal plane of CrB2. Single-phase CrB2 was synthesized via a high pressure and high temperature (HPHT) approach as an electrocatalyst for HER. The performance of CrB2 revealed a higher catalytic activity with overpotentials of 355 and 522 mV at 10 and 200 mA cm−2 in acidic conditions and a Tafel slope of 77.84 mV dec−1. These results indicate that CrB2 is a promising alternative to noble metal-based catalysts, and that modulating the d-band center by borophene subunits is an efficient way to develop novel Cr-based catalysts.
Author	Gan, Quan Rong, Jiashi Wang, Zizhun Zhang, Wei Fan, Hougang Yang, Jinghai Ye, Yanping Tao, Qiang Chen, Yanli Wang, Fei Wei, Maobin Yang, Lili Liu, Xiaoyan Cao, Jian Zhu, Pinwen
AuthorAffiliation	Ministry of Education Jilin University Electron Microscopy Center Key Laboratory of Preparation and Application of Environmental Friendly Materials Key Laboratory of Functional Materials Physics and Chemistry of the Ministry of Education State Key Laboratory of Superhard Materials College of Physics National Demonstration Center for Experimental Physics Education Jilin Normal University
AuthorAffiliation_xml	– name: National Demonstration Center for Experimental Physics Education – name: State Key Laboratory of Superhard Materials – name: Electron Microscopy Center – name: Jilin University – name: Key Laboratory of Preparation and Application of Environmental Friendly Materials – name: Ministry of Education – name: Jilin Normal University – name: Key Laboratory of Functional Materials Physics and Chemistry of the Ministry of Education – name: College of Physics
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SubjectTerms	Basal plane Borophene Catalysts Catalytic activity Chromium borides Electrocatalysts Electronic structure High temperature Hydrogen evolution reactions Inorganic chemistry Noble metals Transition metals
Title	Tailoring the d-band center by borophene subunits in chromic diboride toward the hydrogen evolution reaction
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