Nonflammable Supramolecular Polymer Electrolytes for Flexible and High-Performance Supercapacitor Applications
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2023Author
Gunday, Seyda TugbaCevik, Emre
Bozkurt, Ayhan
Iqbal, Arfa
Asiri, Sarah
AlGhamdi, Amal
Almofleh, Atheel
Qahtan, Talal F.
Al-Fares, Fatimah Ali Youssef
Isık, Omer
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Gunday, S. T., Cevik, E., Bozkurt, A., Iqbal, A., Asiri, S., AlGhamdi, A., ... & Isık, O. (2023). Nonflammable Supramolecular Polymer Electrolytes for Flexible and High-Performance Supercapacitor Applications. Energy & Fuels.Abstract
The present work reports on high-performance and flexible supercapacitors assembled using a cost-effective and nonflammable electrolyte with activated carbon electrodes. The electrolyte was prepared by rapidly blending a ternary system comprising poly(vinyl alcohol)(P)/glycerol (G)/boric acid (B) hydrogel doped with LiNO3 (Li),─henceforth denoted as PGBLi,─at ambient temperature. Once partial in situ cross-linking occurred between P and B, the polymer electrolytes were cast onto the carbon electrodes. The doped PGBLi hydrogel electrolyte retained excellent flexibility and high ionic conductivity in a broad temperature domain, while the performance of the assembled supercapacitor devices measured at low and high temperatures confirmed the high stability. Moreover, the supercapacitor exhibited 396 F g-1 specific capacitance at 1 A g-1 and 27.41 Wh kg-1, obtained at a power density of 118 W kg-1, while 95.4% capacitive performance was maintained after 10 000 cycles, indicating adequate cyclic stability. Thus, the as-doped PGBLi hydrogel electrolyte is inexpensive, biocompatible, and nonflammable and meets the criteria for flexible wearable electronics; it can be considered for a variety of applications. © 2023 American Chemical Society.