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Density Functional Study of Size-Dependent Hydrogen Adsorption on Ag Cr ( = 1-12) Clusters.AgₓCr(x = 1 - 12)团簇上尺寸依赖型氢吸附的密度泛函研究。
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4
Surface Anchoring and Active Sites of [MoS] Clusters as Co-Catalysts for Photocatalytic Hydrogen Evolution.[MoS]团簇作为光催化析氢共催化剂的表面锚定及活性位点
ACS Catal. 2022 Jun 3;12(11):6641-6650. doi: 10.1021/acscatal.2c00972. Epub 2022 May 20.
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Non-stoichiometric molybdenum sulfide clusters and their reactions with the hydrogen molecule.非化学计量比的硫化钼簇及其与氢分子的反应。
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[Mo S ] as a Model System for Hydrogen Evolution Catalysis by MoS : Probing Protonation Sites in the Gas Phase by Infrared Multiple Photon Dissociation Spectroscopy.[硫化钼]作为硫化钼析氢催化的模型体系:通过红外多光子解离光谱探测气相中的质子化位点。
Angew Chem Int Ed Engl. 2021 Mar 1;60(10):5074-5077. doi: 10.1002/anie.202014449. Epub 2021 Jan 26.
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Active site manipulation in MoS cluster electrocatalysts by transition metal doping.通过过渡金属掺杂对钼硫簇电催化剂活性位点进行调控
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Sub nanometer clusters in catalysis.催化中的亚纳米团簇
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解析过渡金属掺杂[MoS]团簇上的氢吸附:密度泛函理论计算的见解

Unraveling Hydrogen Adsorption on Transition Metal-Doped [MoS] Clusters: Insights from Density Functional Theory Calculations.

作者信息

Phung Thu Thi, Huyen Nguyen Thi, Giang Nguyen Thi, Thu Nguyen Minh, Son Nguyen Thanh, Tung Nguyen Hoang, Lan Ngo Thi, Ngo Son Tung, Mai Nguyen Thi, Tung Nguyen Thanh

机构信息

Institute of Materials Science, Vietnam Academy of Science and Technology, 18 Hoang Quoc Viet, Cau Giay, Hanoi 11307, Vietnam.

University of Science and Technology of Hanoi, Vietnam Academy of Science and Technology, 18 Hoang Quoc Viet, Cau Giay, Hanoi 11307, Vietnam.

出版信息

ACS Omega. 2024 Apr 26;9(18):20467-20476. doi: 10.1021/acsomega.4c01557. eCollection 2024 May 7.

DOI:10.1021/acsomega.4c01557
PMID:38737022
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11079903/
Abstract

Molecular and dissociative hydrogen adsorption of transition metal (TM)-doped [MoS] atomic clusters were investigated using density functional theory calculations. The introduced TM dopants form stable bonds with S atoms, preserving the geometric structure. The S-TM-S bridging bond emerges as the most stable configuration. The preferred adsorption sites were found to be influenced by various factors, such as the relative electronegativity, coordination number, and charge of the TM atom. Notably, the presence of these TM atoms remarkably improved the hydrogen adsorption activity. The dissociation of a single hydrogen molecule on TM[MoS] clusters (TM = Sc, Cr, Mn, Fe, Co, and Ni) is thermodynamically and kinetically favorable compared to their bare counterparts. The extent of favorability monotonically depends on the TM impurity, with a maximum activation barrier energy ranging from 0.62 to 1.58 eV, lower than that of the bare cluster (1.69 eV). Findings provide insights for experimental research on hydrogen adsorption using TM-doped molybdenum sulfide nanoclusters, with potential applications in the field of hydrogen energy.

摘要

采用密度泛函理论计算研究了过渡金属(TM)掺杂的[MoS]原子团簇的分子氢和离解氢吸附。引入的TM掺杂剂与S原子形成稳定键,保持几何结构。S-TM-S桥键成为最稳定的构型。发现优先吸附位点受多种因素影响,如TM原子的相对电负性、配位数和电荷。值得注意的是,这些TM原子的存在显著提高了氢吸附活性。与裸簇相比,单个氢分子在TM[MoS]团簇(TM = Sc、Cr、Mn、Fe、Co和Ni)上的解离在热力学和动力学上都是有利的。有利程度单调取决于TM杂质,最大活化能垒范围为0.62至1.58 eV,低于裸簇的活化能垒(1.69 eV)。研究结果为使用TM掺杂硫化钼纳米团簇进行氢吸附的实验研究提供了见解,在氢能领域具有潜在应用。