Unraveling Hydrogen Adsorption on Transition Metal-Doped [Mo3S13]2– Clusters: Insights from Density Functional Theory Calculations
Chúng tôi vui mừng thông báo rằng TS. Ngô Sơn Tùng và các đồng nghiệp gần đây đã xuất bản công trình của họ có tựa đề "Unraveling Hydrogen Adsorption on Transition Metal-Doped [Mo3S13]2– Clusters: Insights from Density Functional Theory Calculations " trên tạp chí ACS Omega
Tóm tắt:
Molecular and dissociative hydrogen adsorption of transition metal (TM)-doped [Mo3S13]2– 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[Mo3S13]2– 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.
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