Impact of bimetallic synergies on Mo-doping NiFeOOH: Insights into enhanced OER activity and reconstructed electronic structure

IF 3.1 4区 工程技术 Q3 ENERGY & FUELS
Jingkuo Qu, Yuchen Dong, Tuo Zhang, Chang Zhao, Liting Wei, Xiangjiu Guan
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Abstract

NiFe (oxy)hydroxide (NiFeOOH) is recognized as a highly active non-precious metal catalyst in alkaline water electrolysis due to its exceptional catalytic properties. In this work, high valence molybdenum (Mo) is introduced to improve the electronic structure and enhance the electrical conductivity of NiFeOOH for oxygen evolution reaction (OER). The introduction of Mo results in a Mo-doped NiFeOOH catalyst with a significantly reduced overpotential of 205 mV at 10 mA/cm2 and a Tafel slope of 31.7 mV/dec, enabling stable operation for up to 170 h. Both empirical experiment and theory simulations are employed to gain insight into the 3d-electron interactions between molybdenum and nickel (Ni), iron (Fe) in Mo-doped NiFeOOH. The results indicate that Mo-doping enhances the valence states of Ni and Fe, leading to a shift in the d-band center of the bimetallic active sites. This modification affects the transformation of Mo-doped NiFeOOH into the γ-NiFeOOH active phase. This potent combination lends credence to its potential suitability and utility in OER applications.

双金属协同作用对掺杂钼的 NiFeOOH 的影响:对增强 OER 活性和重建电子结构的启示
镍铁(氧)氢氧化物(NiFeOOH)因其卓越的催化特性而被公认为是碱性水电解中一种高活性非贵金属催化剂。在这项工作中,引入了高价钼(Mo)以改善 NiFeOOH 的电子结构并提高其导电性,从而促进氧进化反应(OER)。通过引入钼,掺杂钼的 NiFeOOH 催化剂在 10 mA/cm2 条件下的过电位显著降低至 205 mV,Tafel 斜坡为 31.7 mV/dec,可稳定运行长达 170 h。结果表明,钼掺杂增强了镍和铁的价态,导致双金属活性位点的 d 带中心发生移动。这种改变影响了掺杂钼的 NiFeOOH 向 γ-NiFeOOH 活性相的转变。这种强有力的组合使其在 OER 应用中具有潜在的适用性和实用性。
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来源期刊
Frontiers in Energy
Frontiers in Energy Energy-Energy Engineering and Power Technology
CiteScore
5.90
自引率
6.90%
发文量
708
期刊介绍: Frontiers in Energy, an interdisciplinary and peer-reviewed international journal launched in January 2007, seeks to provide a rapid and unique platform for reporting the most advanced research on energy technology and strategic thinking in order to promote timely communication between researchers, scientists, engineers, and policy makers in the field of energy. Frontiers in Energy aims to be a leading peer-reviewed platform and an authoritative source of information for analyses, reviews and evaluations in energy engineering and research, with a strong focus on energy analysis, energy modelling and prediction, integrated energy systems, energy conversion and conservation, energy planning and energy on economic and policy issues. Frontiers in Energy publishes state-of-the-art review articles, original research papers and short communications by individual researchers or research groups. It is strictly peer-reviewed and accepts only original submissions in English. The scope of the journal is broad and covers all latest focus in current energy research. High-quality papers are solicited in, but are not limited to the following areas: -Fundamental energy science -Energy technology, including energy generation, conversion, storage, renewables, transport, urban design and building efficiency -Energy and the environment, including pollution control, energy efficiency and climate change -Energy economics, strategy and policy -Emerging energy issue
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