钼与铁亚族金属二元合金在碱性介质中的电催化还原水簇

V. N. Nikitenko, E. A. Babenkov, O. L. Bersirova, V. Kublanovsky
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引用次数: 0

摘要

在碱性介质(30 wt. % NaOH 溶液)中,钼与铁亚族金属(Fe、Co、Ni)的二元合金在电催化氢进化过程中,计算了系统及其组分的总重组能、溶剂重组能和反应物(水簇 [(H2O)nOH]-)的转化能。溶剂重组能和水簇重组能的计算值与 Marcus - Dogonadze - Kuznetsov 理论一致。计算了体系总重组能、溶剂重组能和放电物种(水簇)重组能与电解质温度的关系。结果表明,钼与铁亚族金属的二元合金在碱性溶液(30 wt:Fe-54 at.Mo > Ni-54 at.Mo > Co-52 at.Mo > Co-52 at.二元钼合金上的水簇放电重组能和活化能的温度依赖性呈线性关系,并在 30 wt.计算得出的扩散活化能 Ad 为 9.9 kJ-mol-1。系统重组能 lt 的值为 39.8 kJ-mol-1,与 Markus - Dogonadze - Kuznetsov 的理论一致。钼与铁亚基 m 的二元合金的电催化活性
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Electrocatalytic reduction of water clusters on binary alloys of molybdenum with iron subgroup metals in an alkaline medium
The total reorganization energy of the system and its components, the solvent reorganization energy and the transformation energy of reactants (water clusters [(H2O)nOH]-), during electrocatalytic hydrogen evolution on binary alloys of molybdenum with iron subgroup metals (Fe, Co, Ni) in an alkaline medium (30 wt. % NaOH solution) have been calculated. The calculated values of the solvent reorganization energy and the reorganization energy of water clusters are in agreement with the Marcus – Dogonadze – Kuznetsov theory. The dependence of the total reorganization energy of the system, the solvent reorganization energy, and the reorganization energy of discharging species (water clusters) on the electrolyte temperature has been calculated. It was shown that the total reorganization energy of the system and the activation energy of the electron-transfer reaction of electrocatalytic hydrogen evolution (HER) on binary alloys of molybdenum with iron subgroup metals in an alcaline vedium (30 wt. % NaOH solution) decrease linearly with increasing electrolyte temperature in the following order: Fe-54 at. % Mo > Ni-54 at. % Mo > Co-52 at. % Mo. The temperature dependences of the water cluster discharge reorganization energy and the activation energy on binary molybdenum alloys are linear and intersect in the boiling point region of 30 wt. % NaOH solution 384.7 K. At this temperature, the electrode process is limited by the diffusion of regenerating water clusters to the electrode surface. The calculated diffusion activation energy Ad is 9.9 kJ·mol–1. The value of the system reorganization energy lt is 39.8 kJ·mol–1, which is consistent with the theory of Markus – Dogonadze – Kuznetsov. Electrocatalytic activity of binary alloys of molybdenum with iron subgroup m
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