Ni-Directed biphase N-doped Mo2C as an efficient hydrogen evolution catalyst in both acidic and alkaline conditions

Cheng Feng Du; Yaxin Wang; Xiangyuan Zhao; Jinjin Wang; Xiaomei Wang; Weigang Wang; Hong Yu

doi:10.1039/d2dt00449f

Ni-Directed biphase N-doped Mo₂C as an efficient hydrogen evolution catalyst in both acidic and alkaline conditions

Cheng Feng Du, Yaxin Wang, Xiangyuan Zhao, Jinjin Wang, Xiaomei Wang, Weigang Wang, Hong Yu

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

The development of efficient and low-cost catalysts is of great significance for the future application of the electrocatalytic hydrogen evolution reaction (HER). Herein, a series of Ni,N co-doped Mo₂C nanostructures (Ni_x-Mo₂C/N) with different Ni content levels are fabricated. The phase-directing effect of Ni on Mo₂C/N is observed, which is in charge of the phase transformation of Mo₂C/N from an α- to a β-phase. At the optimized Ni-doping level, biphase Ni₁₅-Mo₂C/N exhibits outstanding HER activity under both acidic and alkaline conditions. In particular, under alkaline conditions, Ni₁₅-Mo₂C/N delivers an overpotential of only 105.0 mV, accompanied by a low Tafel slope of 44.96 mV dec⁻¹. The performance is comparable to commercial 20% Pt/C and higher than most state-of-the-art Mo₂C-based catalysts as well.

Original language	English
Pages (from-to)	6464-6472
Number of pages	9
Journal	Dalton Transactions
Volume	51
Issue number	16
DOIs	https://doi.org/10.1039/d2dt00449f
State	Published - 23 Mar 2022

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title = "Ni-Directed biphase N-doped Mo2C as an efficient hydrogen evolution catalyst in both acidic and alkaline conditions",

abstract = "The development of efficient and low-cost catalysts is of great significance for the future application of the electrocatalytic hydrogen evolution reaction (HER). Herein, a series of Ni,N co-doped Mo2C nanostructures (Nix-Mo2C/N) with different Ni content levels are fabricated. The phase-directing effect of Ni on Mo2C/N is observed, which is in charge of the phase transformation of Mo2C/N from an α- to a β-phase. At the optimized Ni-doping level, biphase Ni15-Mo2C/N exhibits outstanding HER activity under both acidic and alkaline conditions. In particular, under alkaline conditions, Ni15-Mo2C/N delivers an overpotential of only 105.0 mV, accompanied by a low Tafel slope of 44.96 mV dec−1. The performance is comparable to commercial 20\% Pt/C and higher than most state-of-the-art Mo2C-based catalysts as well.",

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T1 - Ni-Directed biphase N-doped Mo2C as an efficient hydrogen evolution catalyst in both acidic and alkaline conditions

AU - Du, Cheng Feng

AU - Wang, Yaxin

AU - Zhao, Xiangyuan

AU - Wang, Jinjin

AU - Wang, Xiaomei

AU - Wang, Weigang

AU - Yu, Hong

PY - 2022/3/23

Y1 - 2022/3/23

N2 - The development of efficient and low-cost catalysts is of great significance for the future application of the electrocatalytic hydrogen evolution reaction (HER). Herein, a series of Ni,N co-doped Mo2C nanostructures (Nix-Mo2C/N) with different Ni content levels are fabricated. The phase-directing effect of Ni on Mo2C/N is observed, which is in charge of the phase transformation of Mo2C/N from an α- to a β-phase. At the optimized Ni-doping level, biphase Ni15-Mo2C/N exhibits outstanding HER activity under both acidic and alkaline conditions. In particular, under alkaline conditions, Ni15-Mo2C/N delivers an overpotential of only 105.0 mV, accompanied by a low Tafel slope of 44.96 mV dec−1. The performance is comparable to commercial 20% Pt/C and higher than most state-of-the-art Mo2C-based catalysts as well.

AB - The development of efficient and low-cost catalysts is of great significance for the future application of the electrocatalytic hydrogen evolution reaction (HER). Herein, a series of Ni,N co-doped Mo2C nanostructures (Nix-Mo2C/N) with different Ni content levels are fabricated. The phase-directing effect of Ni on Mo2C/N is observed, which is in charge of the phase transformation of Mo2C/N from an α- to a β-phase. At the optimized Ni-doping level, biphase Ni15-Mo2C/N exhibits outstanding HER activity under both acidic and alkaline conditions. In particular, under alkaline conditions, Ni15-Mo2C/N delivers an overpotential of only 105.0 mV, accompanied by a low Tafel slope of 44.96 mV dec−1. The performance is comparable to commercial 20% Pt/C and higher than most state-of-the-art Mo2C-based catalysts as well.

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AN - SCOPUS:85128800474

SN - 1477-9226

VL - 51

SP - 6464

EP - 6472

JO - Dalton Transactions

JF - Dalton Transactions

IS - 16

ER -

Ni-Directed biphase N-doped Mo₂C as an efficient hydrogen evolution catalyst in both acidic and alkaline conditions

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