2006
DOI: 10.1016/j.electacta.2005.06.006
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Temperature dependence of kinetics and diffusion coefficients for ferrocene/ferricenium in ammonium-imide ionic liquids

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Cited by 68 publications
(74 citation statements)
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“…For the V(II)/V(III) redox reaction at 25°C, an anodic peak and a cathodic peak occurred at À0.373 V and À0.794 V, respectively, which are consistent with the data reported the literature [20]. It can be seen from Table 1 that with increasing temperature, the peak potential separation (DE) of the V(II)/V(III) redox couple shows an obvious decrease, indicating that the redox reaction exhibits a better reversibility at elevated temperatures.…”
Section: Cyclic Voltammetrysupporting
confidence: 93%
“…For the V(II)/V(III) redox reaction at 25°C, an anodic peak and a cathodic peak occurred at À0.373 V and À0.794 V, respectively, which are consistent with the data reported the literature [20]. It can be seen from Table 1 that with increasing temperature, the peak potential separation (DE) of the V(II)/V(III) redox couple shows an obvious decrease, indicating that the redox reaction exhibits a better reversibility at elevated temperatures.…”
Section: Cyclic Voltammetrysupporting
confidence: 93%
“…In all cases a good linear tendency has been observed. Calculated ferrocene (Fc) diffusion coefficients ( [27]. A diffusion coefficient of 3 Â 10 À8 cm 2 s À1 for ferrocene in 1-butyl-3-methylimidazolium hexafluorophosphate was deduced from cyclic voltammetry fitting, assuming a heterogenous charge-transfer rate constant k ¼ 0.0025 cm s À1 and electron transfer coefficient of 0.5 [20].…”
Section: Diffusionmentioning
confidence: 99%
“…Changing the bath temperature affects the diffusion coefficient D, according to Arrhenius law. 50) The maximum current density increases with bath temperature. Furthermore, the minimum current density in the medium current density regime increases with bath temperature, 25) because the maximum current density i a for adsorption of hydrogen is also affected by bath temperature.…”
Section: Design Principles For Achieving High Ductilitymentioning
confidence: 99%