Simultaneous characterisation of electrode kinetics and electrolyte properties in ionic liquids using a rotating disc electrode
- 作者:David Lloyd ; Tuomas Vainikka ; Sö ; nke Schmachtel ; Lasse Murtomä ; ki ; lasse.murtomaki@aalto.fi ; Kyö ; sti Kontturi
- 关键词:Deep eutectic solvents ; Ionic liquids ; Impedance spectroscopy ; Rotating disc electrode
- 刊名:Electrochimica Acta
- 出版年:2012
- 期刊代码:30_00134686
- 类别:ch
- 出版时间:1 May, 2012
- 卷:69
- 期:Complete
- 页码:139-145
- 文件大小:442 K
摘要
In this work, simultaneous characterisation of conductivity, viscosity and heterogeneous kinetics is demonstrated in a deep eutectic solvent based on choline chloride and ethylene glycol, using concurrent steady state voltammetric and impedance measurements at a rotating disc electrode. A theoretical treatment based on post-experimental correction of ohmic losses is shown to be reliable. The parameters determined at 25 掳C are: standard rate constant of electron transfer k0 = 10 卤 1 脳 10鈭? cm s鈭?, charge transfer coefficient 伪 = 0.39 卤 0.03, formal potential E0鈥?/sup> = 0.430 卤 0.005 V vs. Ag/AgCl, conductivity 魏 = 10.1 卤 0.3 mS cm鈭?, dynamic viscosity 畏 = 37 卤 3 mPa s, diffusion coefficient of Cu2+ DO = 1.32 卤 0.5 脳 10鈭? cm2 s鈭? and Stokes radius of the Cu2+ complex RH = 0.33 nm.
Conventional conductivity and rheometric measurements were also performed. The electrolyte conductivity and dynamic viscosity were 8.0 卤 0.3 mS cm鈭? and 41 卤 3 mPa s respectively at 25 掳C. These values compare well with the values determined using electrochemical methods. The deep eutectic solvent used has been shown to exhibit conductivity and viscosity comparable to modern ionic liquids based on discrete anions. The Stokes radius of the [CuCl4]2鈭?/sup> complex formed confirms the similarity of these deep eutectic solvents to basic chloroaluminate ionic liquids.