二硅化铁上的阴极析氢。I.碱性溶液

IF 0.6 Q4 CHEMISTRY, MULTIDISCIPLINARY
Maria М. Kuzminykh, V. Panteleeva, A. B. Shein
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引用次数: 2

摘要

采用极化和阻抗测量方法研究了fesi2电极在1.0 M NaOH溶液中析氢反应的动力学。在分析等效电路参数对过电压依赖性的基础上,建立了析氢反应机理诊断准则,确定了碱性电解液中二硅酸铁的析氢反应沿放电-电化学脱附路线进行,其中脱附是决定速率的阶段。两个阶段都是不可逆的,两个阶段的传递系数相等(α1 = α2 = α),同时电极材料的吸氢反应以扩散方式进行(在整个研究电位范围内)。发现原子氢的吸附用Langmuir等温线方程来描述。研究了不同表面修饰方法对fesi2电极阴极过程动力学和机理的影响。发现二硅化物表面的改性氢化的电流密度i = 30 mA / cm2,在0.5 M硫酸阳极腐蚀电位E = 0.4 V相对于标准氢电极的阳极腐蚀1.0 M氢氧化钠在潜在的E = 0.1 V,化学腐蚀在5.0 M氢氧化钠在70°C减少氢过电压的进化,但阴极的机理过程不会改变结果的修改。二硅化铁析氢过电压的降低是由于两个因素的作用:表面的发展和电极表面层组成的变化。结果表明,FeSi2在碱性电解液中表现出电解析氢反应的活性,是一种很有前途的电极材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
CATHODIC HYDROGEN EVOLUTION ON IRON DISILICIDE. I. ALKALINE SOLUTION
The kinetics of hydrogen evolution reaction on FeSi2-electrode in 1.0 M NaOH solution has been studied using methods of polarization and impedance measurements. With the help of diagnostic criteria for the hydrogen evolution reaction mechanisms based on the analysis of the dependence of the parameters of the equivalent electric circuit on overvoltage, it was established that the reaction of hydrogen evolution on iron disilicide in the alkaline electrolyte proceeds along the discharge - electrochemical desorption route, where desorption is the rate-determining stage. Both stages are irreversible, the transfer coefficients of the stages are equal (α1 = α2 = α), simultaneously the hydrogen absorption reaction by the electrode material proceeds in the diffusion mode (in the whole investigated range of potentials). It was found that the adsorption of atomic hydrogen is described by the equation of the Langmuir isotherm. The influence of various methods of modifying of the surface of FeSi2-electrode on the kinetics and mechanism of the cathodic process has been studied. It was found that the modification of the disilicide surface by hydrogenation at a current density of i = 30 mA/cm2, an anodic etching in 0.5 M H2SO4 at the potential E = 0.4 V relative to the standard hydrogen electrode, an anodic etching in 1.0 M NaOH at the potential E = 0.1 V, chemical etching in 5.0 M NaOH at 70 °C reduce the overvoltage of hydrogen evolution, but the mechanism of the cathodic process does not change as a result of the modification. Reduction of the overvoltage of hydrogen evolution on iron disilicide is due to the action of two factors: the development of the surface and the change in the composition of the surface layer of the electrode. It has been concluded that FeSi2 in the alkaline electrolyte is a promising electrode material that exhibits activity in the electrolytic hydrogen evolution reaction.
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来源期刊
CiteScore
1.40
自引率
44.40%
发文量
83
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