1) chronoamperometry
[,krɔnə,æmpə'rɔmitri]
恒电势阶跃
2) potential step
电势阶跃
1.
The electrochemical redox of neutral red has been studied by potential step method and thin layer spectroelectrochemistry The standard potential E and the number of electron transfer determined were 0 258V(vs NHE)and 2 respectively The acid dissocilation constants for the reducted neutral red were obtained as pK a1 =5 18,pK a2 =6 03 The mechanism of electrode reaction has been propose
利用电势阶跃法和光谱电化学方法研究了中性红的氧化还原反应,并测定出标准电极电势E=0258(vsNHE),电子转移数n=2以及还原态离解常数pKa1=518,pKa2=603,推测了中性红在水溶液及非水溶液(二甲亚砜)中的电极反应机
2.
This paper described a theoretical analysis of effect of reactant (R) absorption for its initial state (t=t0) of properly posed problem in potential step chronocoulometry.
给出了在电势阶跃计时库仑法测试中,反应物(R)吸附对其定解问题的初始状态(t=t0)影响的理论分析。
3) chronoamperometry
[,krɔnə,æmpə'rɔmitri]
恒电位阶跃
1.
On this condition, cyclic voltammetry (CV), chronoamperometry (CA) and electrochemical impedance spectroscopy (EIS) at cathodic potentials were performed in the pure nickel system (PN), Ni-SiC codeposition system (NS).
恒电位阶跃分析表明,复合沉积镍电结晶形核经历两相继过程,第一过程沉积伊始形核遵循BFT模型连续成核机制,而后随电位负移过渡到BFT瞬时成核机制,第二过程随电位负移先后吻合BFT瞬时成核或SH瞬时成核理论曲线;无论Ni-SiC复合镀层还是纯Ni镀层,形核弛豫时间t_m随负电位的增大,呈现规律性递减趋势,相。
2.
The electrodeposited behaviours in the initial stage and deposited process were investigated by cyclic voltammetry(CV),chronoamperometry(CA), electrochemical impedance spectroscopy(EIS).
利用循环伏安、恒电位阶跃、电化学阻抗等电化学测试技术研究了电结晶初期以及电沉积过程的电化学行为。
4) potential step method
恒电位阶跃
1.
Electrochemical impedance spectroscopy(EIS) technique and potential step method were employed to study the electrochemical behaviour of Pt and Ni electrodes in 3.
采用电化学阻抗和恒电位阶跃技术研究了金属铂和镍电极在含油氯化钠溶液中的电化学行为特征,测量了不同含油量体系中电化学信号的变化,并建立了相应的等效电路。
5) single potential step
单电势阶跃
6) DPS Chronoamperometric
双电势阶跃
补充资料:电势阶跃法
分子式:
CAS号:
性质: 一种电化学研究方法。开始时(t=0)电极电势从开路突跃至某一指定恒值,直至实验结束,测量电流随时间的变化(计时电流法)或电量随时间的变化(计时电量法),从而计算电极等效电路中各元件的数值,获得相应电极反应的有关参数。电势阶跃法可用于测量电极反应的等效阻抗和双电层电容,也常用于测量粗糙多孔表面的双电层电容并得到电极真实表面积。
CAS号:
性质: 一种电化学研究方法。开始时(t=0)电极电势从开路突跃至某一指定恒值,直至实验结束,测量电流随时间的变化(计时电流法)或电量随时间的变化(计时电量法),从而计算电极等效电路中各元件的数值,获得相应电极反应的有关参数。电势阶跃法可用于测量电极反应的等效阻抗和双电层电容,也常用于测量粗糙多孔表面的双电层电容并得到电极真实表面积。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条