TM@MoSSe (TM = Ni, Fe) as novel electrocatalysts for reduction of CO2 to CO: A DFT study

IF 3 3区化学 Q3 CHEMISTRY, PHYSICAL Computational and Theoretical Chemistry Pub Date : 2024-10-18 DOI:10.1016/j.comptc.2024.114929

Yu-Pu He , Tian-Hao Guo , Shao-Yi Wu , Shi-Yu Zuo , Jun-Chao Fu , Xiao-Yu Li

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Abstract

It is crucial to develop highly efficient, selective and low-overpotential electrocatalysts for CO₂ reduction. This paper proposes an efficient iron and nickel single-atom catalyst using Janus MoSSe as the substrate to reduce CO₂ to CO by using DFT calculations. The adsorption of a single TM atom like Fe, Co, Ni, Ru, Rh, Pd, Os, Ir and Pt on Janus MoSSe monolayer results in a decrease in band gap, which may accelerate the catalytic CO₂ reduction. The excellent catalytic activity of Fe@MoSSe and Ni@MoSSe is owing to the high d-band center and hence the strong TM-CO₂ bonding. The asymmetric structure of Janus MoSSe creates the local built-in electric field, which further increases by about 8% or 0.8% after the adsorption of single Ni or Fe atom so as to afford the better electrocatalytic performances for reduction of CO₂ to CO in both TM modified systems. So, this work proposes the catalysts Fe@MoSSe and Ni@MoSSe with good selectivity and activity for CO₂ reduction by revealing their underlying mechanisms, and Janus MoSSe may be used as a potential substrate material for CO₂ reduction catalysts.

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TM@MoSSe（TM = Ni、Fe）作为将 CO2 还原成 CO 的新型电催化剂：DFT 研究

开发高效、高选择性和低过电位的二氧化碳还原电催化剂至关重要。本文通过 DFT 计算，提出了一种以 Janus MoSSe 为底物的高效铁镍单原子催化剂，用于将 CO2 还原为 CO。在 Janus MoSSe 单层上吸附 Fe、Co、Ni、Ru、Rh、Pd、Os、Ir 和 Pt 等单个 TM 原子会导致带隙减小，从而加速催化 CO2 还原。Fe@MoSSe和Ni@MoSSe之所以具有出色的催化活性，是因为它们具有较高的d带中心，因而具有较强的TM-CO2键。Janus MoSSe 的不对称结构产生了局部内置电场，在吸附单个 Ni 或 Fe 原子后，电场进一步增加了约 8%或 0.8%，从而使这两种 TM 修饰体系在将 CO2 还原成 CO 时具有更好的电催化性能。因此，本研究通过揭示Fe@MoSSe和Ni@MoSSe的内在机理，提出了具有良好选择性和活性的CO2还原催化剂，Janus MoSSe可作为CO2还原催化剂的潜在基底材料。

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来源期刊

Computational and Theoretical Chemistry CHEMISTRY, PHYSICAL-

CiteScore

4.20

自引率

10.70%

发文量

331

审稿时长

31 days

期刊介绍： Computational and Theoretical Chemistry publishes high quality, original reports of significance in computational and theoretical chemistry including those that deal with problems of structure, properties, energetics, weak interactions, reaction mechanisms, catalysis, and reaction rates involving atoms, molecules, clusters, surfaces, and bulk matter.