文中对体系的电流特性,电极反应过程的可逆性,电极反应机理等也进行了研究。
The current character, the reversibility and the mechanism of electrode reaction etc. were also studied.
另外,本文还对三唑酮的降解过程和体系的电极反应机理进行了探讨。
The degradation process of triadimefon and the electrode reaction mechanism of the system were also discussed in this paper.
开展有机催化波的研究可用于提高分析灵敏度、研究电极过程以及化学反应动力学。
The study on the catalytic wave of organic compound plays an important role in increasing analytical sensitivity, and studying electrode process and chemical reaction kinetics.
对不饱和有机酸在铱-铑合金电极上的吸附和电化学还原过程的动力学规律和反应机理进行了系统的研究。
The kinetic law and reaction mechanism or electrochemical reduction and the adsorption of unsaturated organic acid on Ir-Rh alloy electrode were systematically studied.
金是常用的电极材料和SERS基底,而含氮有机杂环分子的表面吸附和反应过程是饶有兴趣的研究体系。
Gold is an ordinary material for electrode and a good SERS substrate, and the study of nitrogen-containing organic molecules on this substrate is an interesting research subject.
实验证明橙皮甙的电极反应机理为双电子的不可逆过程。
The experimental results prove that the electrode reaction of Hesperidin is an irreversible two-electron electrode process.
研究了电极过程的可逆性、吸附特性及电极反应机制,求得一系列常数和参数。
The reversibility of electrode process, the character of adsorption and the mechanism of electrode reaction were investigated. A Series of constants and parameters were calculated.
同时还研究了电解过程中电极、电流密度、温度、反应时间等对反应物转化率、电流效率、槽压的影响规律。
The relationships among conversion, current efficiency and bath voltage with electrodes, current density, temperature and electrolysis time were studied.
提出了酶催化反应机理及其产物的电极还原过程。
The processes of the enzyme - catalyzed reaction and the electroreduction of the product of the enzyme - catalyzed reaction are described.
加强电化学氢化物发生反应过程中电极反应机理的探讨;加强干扰消除方法和应用方面的研究等。
The prospects of the EcHG, including the extending element range for EcHG, the mechanism of electrode reaction, interferences and elimination, were also discussed.
电极的峰电流与扫描速度的平方根成正比,电极上的传质过程受扩散控制,对酶催化反应的动力学机制进行了探讨。
The peak current is proportional to square root of scan rate, which indicated that the procedure is controlled by diffusion. The dynamic mechanism of the enzyme catalyzed reaction was discussed.
采用线性电位扫描和电化学交流阻抗等电化学测量技术 ,对高深宽比掩膜条件下微电铸镍的电极反应动力学过程进行了初步研究。
The kinetics of the electrode reaction is preliminarily studied by linear potential sweep technique and electrochemical impedance while electrodepositing Ni for high aspect ratio structures.
采用线性电位扫描和电化学交流阻抗等电化学测量技术 ,对高深宽比掩膜条件下微电铸镍的电极反应动力学过程进行了初步研究。
The kinetics of the electrode reaction is preliminarily studied by linear potential sweep technique and electrochemical impedance while electrodepositing Ni for high aspect ratio structures.
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