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Electrochemical study of methylalkylviologens using an electrochemical quartz crystal microbalance
- Electrochemical study of methylalkylviologens using an electrochemical quartz crystal microbalance
- Lee C.; Kyung Lee Y.; Lee Y.; Cheol Jeon I.
- Ewha Authors
- 이종목; 이영미
- SCOPUS Author ID
- 이종목; 이영미
- Issue Date
- Journal Title
- Journal of Electroanalytical Chemistry
- vol. 463, no. 2, pp. 224 - 231
- Elsevier Sequoia SA
- The electrochemical behavior of various 1-methyl-1′-alkylviologens (C1CnV2-: n = 1, 7, 8, 9, 10, 12, 14, 16 and 18) was studied using an electrochemical quartz crystal microbalance (EQCM). Three different types of the frequency change-potential (Δf-E) curves were observed depending on the length of alkyl substituent during the cyclic voltammetry (CV) of the first redox step: for n = 1 and 7, Δf was less than 30 Hz (reversible); for n = 9, 10, 12 and 14. Δf = 200 Hz indicating electrodeposition of C1CnV·+; for n = 16 and 18, Δf = 5000 Hz with two anodic peaks implying reorientation of the electrodeposited C1CnV·+ occurring on the electrode surface. These results are consistent with our previous report where apparent dimerization of C1CnV·+ was observed. The effect of cyclodextrins (CDs) on the frequency change-potential (Δf-E) curves was also investigated. Δf for 1 mM C1C16V2+ solution was 6000 Hz. while Δf was below 100 Hz in the presence of 13 mM of α-CD. However, Δf was 5000 Hz in the presence of 13 mM of β-CD. This implies that the complexation ability between C1C16V·+/C1C16V2+ and α-CD is larger than that of β-CD through the tighter binding as per the report by Diaz et al. Comproportionation between C1C-V2- and C1C7V0 in the presence of α- and β-CD was also carried out. A negligible effect was observed in the CV or Δf-E curve by α-CD. With β-CD, the anodic stripping wave (C1C7V0-e-1→C1C-V·+) disappeared, however, Δf was 9500 Hz (1100 Hz without CDs). It is clear that the complexation ability between C1C-V0 and β-CD is larger than that of α-CD. This might be due to the limited solubility of β-CD upon complexation with C1C7V0. A similar result was obtained in a 1 mM C1C4V2+ with 30 mM γ-CD experiment. The mechanism of the cyclodextrin-induced comproportionation reaction as well as electrodeposition pathways are discussed in this paper based on EQCM and spectroelectrochemical experimental results.
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