PEMBANGUNAN PENYIMPANAN TENAGA HIJAU DARIPADA SELULOSA BAKTERIA, SELULOSA METIL DAN KANJI KENTANG

Jurnal Teknologi Pub Date : 2024-01-15 DOI:10.11113/jurnalteknologi.v86.20987

M. .. Hamsan, N. A. Halim, N. S. N. Sa’aya, N. Nazri, N. Mohd Salleh, S. Z. N. Demon, N. Shamsuri, M. F. Z. Kadir, M. F. Shukur, L. K. Keng, N. H. A. Jafry, A. A. Rahim

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Abstract

A natural polymer known as bacterial cellulose (BC), derived from a symbiotic culture of bacteria and yeast (SCOBY), is utilized as the electrodes for the electrochemical double-layer capacitors (EDLC). Bacterial cellulose which can be easily obtained from the local market, possesses an exceptional structure that allows for the elimination of non-biodegradable binders and the use of current collectors in the EDLC electrodes. A green polymer electrolyte system consisting of methylcellulose, potato starch and lithium bromide. This electrolyte demonstrates a conductivity of (1.38 ± 0.54) × 10-4 S/cm, electrochemical stability of 1.3 V, and an ionic transference number of 0.98. The optimized electrolyte is used in the EDLC. Cyclic voltammetry analysis reveals that he fabricated EDLC has a capacitive behavior without any peaks indicating redox reactions. The EDLC undergo charging and discharging for up to 5000 cycles, with specific capacitances of 26 F/g. The EDLC shows a maximum power density of 1730 W/kg, with energy density of 3.6 Wh/kg.

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比细菌纤维素、甲基纤维素和马铃薯淀粉更适合开发绿色动力储存技术

电化学双层电容器（EDLC）的电极采用了一种名为细菌纤维素（BC）的天然聚合物，这种聚合物来自细菌和酵母（SCOBY）的共生培养。细菌纤维素很容易从本地市场获得，它具有特殊的结构，可以消除不可生物降解的粘合剂，并在 EDLC 电极中使用集流器。由甲基纤维素、马铃薯淀粉和溴化锂组成的绿色聚合物电解质系统。这种电解质的电导率为 (1.38 ± 0.54) × 10-4 S/cm，电化学稳定性为 1.3 V，离子转移数为 0.98。优化后的电解质用于 EDLC。循环伏安分析表明，所制造的 EDLC 具有电容特性，没有任何表示氧化还原反应的峰值。EDLC 可进行长达 5000 次的充电和放电，比电容为 26 F/g。EDLC 的最大功率密度为 1730 W/kg，能量密度为 3.6 Wh/kg。

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Jurnal Teknologi

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20 weeks