碱土金属
化学
铌
无机化学
离子半径
电化学
金属
氯化物
钛
氟化物
氧化还原
镁
离子势
离子键合
物理化学
离子
电极
有机化学
作者
Daria A. Vetrova,Anna Popova,С. А. Кузнецов
标识
DOI:10.1149/1945-7111/ad3ec1
摘要
The standard rate constants of charge transfer ( k s ) for the Nb(V)/Nb(IV) redox couple in the NaCl-KCl (equimol.) -NaF(10 wt%)-K 2 NbF 7 melt with addition of alkaline Earth metal cations (Mg 2+ , Ca 2+ , Sr 2+ , Ba 2+ ) were determined. It was found that addition of alkaline Earth metal cations resulted in increasing of k s to the certain ratio of Me 2+ /Nb(V) for the all alkaline Earth metal cations due to substitution of Na + and K + cations by Me 2+ in the second coordination sphere of niobium complexes that leads to decreasing of niobium fluoride complexes stability. Further addition brought to some decrease of the standard rate constants because the viscosity of melts increasing, which brings to decrease of the diffusion coefficients. The standard rate constants increase with increasing of the ionic potential and reach maximum values for the complexes with outer-sphere magnesium cations. Comparative analysis of the electrochemical behavior of Nb(V)/Nb(IV) and Ti(IV/Ti(III)) redox couples in the NaCl-KCl (equimol.) -NaF(10 wt%) melt without and with addition of alkaline Earth metal cations has been done. It was determined that mechanism of electron transfer from the cathode to niobium and titanium complexes in melts containing alkaline Earth metal cations is the same and has a bridge nature.
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