Effect of alkyl-chain length of imidazolium based ionic liquid on ion conducting and interfacial properties of organic electrolytes

Kyungmin Kim; Seok Kim

Journal of Industrial and Engineering Chemistry, Vol.26, 136-142, June, 2015

DOI10.1016/j.jiec.2014.11.025 Export Citation

Effect of alkyl-chain length of imidazolium based ionic liquid on ion conducting and interfacial properties of organic electrolytes

Kyungmin Kim, and Seok Kim^†

School of Chemical and Biochemical Engineering, Pusan National University, San 30, Jangjeon-dong, Geumjeong-gu, Pusan 609-735, South Korea

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In this study the effect of imidazolium ionic liquid with a different alkyl side chain (ethyl, propyl and butyl) on ion conducting and interfacial properties of organic electrolytes against carbon electrode has been invested. The influence of electrochemical performances of imidazolium ionic liquids additives into organic solvent were examined by linear sweep voltammetry (LSV) cyclic voltammetry (CV), galvanostatic charge/discharge, and electrochemical impedance spectroscopy (EIS). The imidazolium ionic liquids with ethyl, propyl and butyl chains exhibited a variant electrochemical performance such an improved specific capacitance, low resistance, good rate capability and excellent cycle ability. Among the ionic liquids, BMImBF4 (10 vol.%)-containing electrolyte presented the maximum specific capacitance (130.5 F g?1), capacitance retention (close to 80% after 1000 cycles) and low interfacial resistance of between electrolyte and electrode. It means that 10% BMImBF4 in EC/DME (1/1) can be a proper electrolyte of capacitors.

Keywords:Ionic liquids;Chain length;Ion conducting;Organic electrolytes;Interface

[References]

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Gao ZH, Zhang H, Cao GP, Han MF, Yang YS, Electrochim. Acta, 87, 375 (2013)
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Bonhote P, Dias AP, Papageorgiou N, Kalyanasundaram K, Gratzel M, Inorg. Chem., 35(5), 1168 (1996)
Welton T, Chem. Rev., 99(8), 2071 (1999)
Yuan CZ, Gao B, Zhang XG, J. Power Sources, 173(1), 606 (2007)
Kang J, Wen JZ, Jayaram SH, Yu AP, Wang XH, Electrochim. Acta, 115, 587 (2014)
Weingarth D, Czekaj I, Fei ZF, Foelske-Schmitz A, Dyson PJ, Wokaun A, Kotz R, J. Electrochem. Soc., 159(7), H611 (2012)
Lovelock KRJ, Kolbeck C, Cremer T, Paape N, Schulz PS, Wasserscheid P, Maier F, Steinruck HP, J. Phys. Chem. B, 113(9), 2854 (2009)
Wang S, Li S, Cao Z, Yan T, J. Phys. Chem. C, 114(2), 990 (2010)

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[1] Oh M, Park SJ, Jung Y, Kim S, Synth. Met., 162, 695 (2012)

[2] Park S, Kim S, Electrochim. Acta, 89, 516 (2013)

[3] Oh M, Kim S, Electrochim. Acta, 78, 279 (2012)

[4] Gao ZH, Zhang H, Cao GP, Han MF, Yang YS, Electrochim. Acta, 87, 375 (2013)

[5] Ko JM, Kim S, Kim KM, Chung IJ, Synth. Met., 64, 9 (1994)

[6] Anouti M, Couadou E, Timperman L, Galiano H, Electrochim. Acta, 64, 110 (2012)

[7] Kim JE, Park SJ, Kim S, Carbon Lett., 14, 51 (2013)

[8] Oh M, Kim S, Electrochim. Acta, 59, 196 (2012)

[9] Ruch PW, Hahn M, Rosciano F, Holzapfel A, Kaiser H, Scheifele W, Schmitt B, Novak P, Kotz R, Wokaun A, Electrochim. Acta, 53(3), 1074 (2007)

[10] Burke A, Electrochim. Acta, 53(3), 1083 (2007)

[11] Wilkes JS, Zaworotko MJ, J. Chem. Soc.-Chem. Commun., 13, 965 (1992)

[12] Galinski M, Lewandowski A, Stepniak I, Electrochim. Acta, 51(26), 5567 (2006)

[13] Paul A, Mandal PK, Samanta A, Chem. Phys. Lett., 402(4-6), 375 (2005)

[14] Bonhote P, Dias AP, Papageorgiou N, Kalyanasundaram K, Gratzel M, Inorg. Chem., 35(5), 1168 (1996)

[15] Welton T, Chem. Rev., 99(8), 2071 (1999)

[16] Yuan CZ, Gao B, Zhang XG, J. Power Sources, 173(1), 606 (2007)

[17] Kang J, Wen JZ, Jayaram SH, Yu AP, Wang XH, Electrochim. Acta, 115, 587 (2014)

[18] Weingarth D, Czekaj I, Fei ZF, Foelske-Schmitz A, Dyson PJ, Wokaun A, Kotz R, J. Electrochem. Soc., 159(7), H611 (2012)

[19] Lovelock KRJ, Kolbeck C, Cremer T, Paape N, Schulz PS, Wasserscheid P, Maier F, Steinruck HP, J. Phys. Chem. B, 113(9), 2854 (2009)

[20] Wang S, Li S, Cao Z, Yan T, J. Phys. Chem. C, 114(2), 990 (2010)