Al-Zohbi Fatima, Ghamouss Fouad, Jacquemin Johan, Schmaltz Bruno, Tabcheh Mohamad Fadel, Abarbri Mohamed, Cherry Khalil, Tran-Van François
Department of Chemistry, Faculty of science III, Lebanese University, Tripoli 1300, Lebanon.
Materials Science and Nano-Engineering, Mohammed VI Polytechnic University, Lot 660 Hay Moulay Rachid, Ben Guerir 43150, Morocco.
Molecules. 2024 May 30;29(11):2569. doi: 10.3390/molecules29112569.
Although disubstituted imidazolium cation is sterically crowded, hundreds of ionic liquids based on this cation have been reported as electrolytes for energy storage devices. In contrast to disubstituted imidazolium, non-substituted imidazolium is uncrowded sterically and has not yet been investigated as an electrolyte, to the best of our knowledge. Hence, imidazolium hydrogen sulfate [Imi][HSO], in mixture with water, was studied as an electrolyte for PANI-based electrode materials. For comparison, pyrrolidinium with hydrogen sulfate or -toluene sulfonate ([Pyrr][HSO] or [Pyrr][PTS]), in mixture with water, were also investigated as alternatives to the conventional electrolyte (i.e., aqueous HSO) for PANI electrodes. Walden plots of binary mixture ionic liquid-water weight ratios with the optimal ionic conductivity (i.e., [Imi][HSO]/water 48/52 wt% (195.1 mS/cm), [Pyrr][HSO]/water 41/59 wt% (186.6 mS/cm), and [Pyrr][PTS]/water 48/52 wt% (43.4 mS/cm) along with the electrochemical performances of PANI in these binary mixtures showed that [Pyrr][HSO] or [Imi][HSO] are convenient electrolytes for PANI/PIL, as opposed to [Pyrr][PTS]. Furthermore, replacing the conventional aqueous electrolyte HSO with [Imi][HSO] increased the specific capacitance of PANI/PIL from 249.8 to 268.5 F/g at 15 mV/s. Moreover, PANI/PIL electrodes displayed a quasi-ideal capacitive behavior in [Imi][HSO] (the correction factor of CPE was 0.99). This primary study has shown that non-substituted imidazolium as an electrolyte could enhance the electrochemical performances of PANI electrodes and could be a good alternative to the conventional electrolyte.
尽管二取代咪唑阳离子在空间上较为拥挤,但据报道,基于这种阳离子的数百种离子液体已被用作储能装置的电解质。据我们所知,与二取代咪唑不同,未取代的咪唑在空间上不拥挤,尚未作为电解质进行研究。因此,研究了硫酸氢咪唑鎓[Imi][HSO]与水的混合物作为基于聚苯胺的电极材料的电解质。为了进行比较,还研究了硫酸氢吡咯烷鎓或对甲苯磺酸吡咯烷鎓([Pyrr][HSO]或[Pyrr][PTS])与水的混合物,作为聚苯胺电极传统电解质(即硫酸水溶液)的替代品。二元混合物离子液体-水重量比与最佳离子电导率的瓦尔登图(即[Imi][HSO]/水48/52 wt%(195.1 mS/cm),[Pyrr][HSO]/水41/59 wt%(186.6 mS/cm),以及[Pyrr][PTS]/水48/52 wt%(43.4 mS/cm))以及聚苯胺在这些二元混合物中的电化学性能表明,与[Pyrr][PTS]相比,[Pyrr][HSO]或[Imi][HSO]是聚苯胺/聚离子液体的方便电解质。此外,用[Imi][HSO]代替传统的硫酸水溶液电解质,在15 mV/s时,聚苯胺/聚离子液体的比电容从249.8 F/g增加到268.5 F/g。此外,聚苯胺/聚离子液体电极在[Imi][HSO]中表现出准理想的电容行为(CPE的校正因子为0.99)。这项初步研究表明,未取代的咪唑作为电解质可以提高聚苯胺电极的电化学性能,并且可能是传统电解质的良好替代品。
