Electrochemistry of nickel(II) and copper(II) N,N'-ethylenebis(acetylacetoniminato) complexes and their electrocatalytic activity for reduction of carbon dioxide and carboxylic acid protons

Manawadevi Y. Udugala-Ganehenege; N. M. Dissanayake; Yuping Liu

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Electrochemistry of nickel(II) and copper(II) N,N'-ethylenebis(acetylacetoniminato) complexes and their electrocatalytic activity for reduction of carbon dioxide and carboxylic acid protons

机译：N，N'-乙撑双（乙酰乙胺）镍（II）和铜（II）的电化学及其对二氧化碳和羧酸质子还原的电催化活性

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The effect of the metal center of [ML] complexes [M = Ni(II), Cu(II); L = N,N'-ethylenebis(acetylaceto-niminato)] on their electrochemistry and electrocatalytic activity for the reduction of CO2 and protons has been studied using cyclic voltarnmetry and bulk electrolysis. The two complexes exhibit different electrochemistries, which are not significantly dependent on the nature of the solvent. The electrocatalytic activity of [NiL] is significantly higher than that of [CuL] for CO2 reduction, due to the higher stability of the electrochemically generated [Ni(I)L] complex, relative to the Cu(I) analog. The diffusion coefficient of [NiL] calculated from the steady-state diffusion limiting current is 3.0 × 10~(-6) cm~2 s~(-1).

机译：[ML]配合物的金属中心的作用[M = Ni（II），Cu（II）;使用循环伏安法和本体电解法研究了L = N，N'-亚乙基双（乙酰乙酰氨基）的电化学及对还原CO2和质子的电催化活性。两种配合物表现出不同的电化学性质，这与溶剂的性质无关。 [NiL]的电催化活性明显高于[CuL]的CO2还原活性，这是由于电化学生成的[Ni（I）L]络合物相对于Cu（I）类似物具有更高的稳定性。由稳态扩散极限电流计算出的[NiL]的扩散系数为3.0×10〜（-6）cm〜2 s〜（-1）。

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《Transition Metal Chemistry》 |2014年第7期|共12页
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Manawadevi Y. Udugala-Ganehenege; N. M. Dissanayake; Yuping Liu;
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Electrochemistry of nickel(II) and copper(II) N,N'-ethylenebis(acetylacetoniminato) complexes and their electrocatalytic activity for reduction of carbon dioxide and carboxylic acid protons

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