使用鸡蛋蛋壳壳膜膜膜，对活化的碳电极的活性化学特性进行描述

Komunikasi Fisika Indonesia Pub Date : 2022-03-31 DOI:10.31258/jkfi.19.1.31-34

Angela Carolina Simanjuntak, Awitdrus Awitdrus

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摘要

超级电容器是一种具有电化学特性的能量存储装置，可以提供高能量和功率密度。超级电容器电池由集流器、电极、电解液和分离器组成。本研究采用椰子幼纤维生物质作为超级电容器电极，h2so4作为电解液，316L不锈钢作为集电流体，鸡蛋壳膜作为分离器。以嫩椰子纤维为原料制备电极炭，首先进行预碳化、0.5M KOH化学活化、600℃氮气碳化、750℃co2气体物理活化。利用循环伏安法分析电化学特性，得到扫描速率为1 mV/s时的比电容值为197.05 F/g，扫描速率为2 mV/s时的比电容值为157.215 F/g，扫描速率为5 mV/s时的比电容值为129.42 F/g。

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KARAKTERISASI SIFAT ELEKTROKIMIA ELEKTRODA KARBON AKTIF BERBASIS LIMBAH SABUT KELAPA MUDA MENGGUNAKAN SEPARATOR MEMBRAN KULIT TELUR AYAM

The supercapacitor is an energy storage device with an electrochemical characteristic that can provide high energy and power density. The supercapacitor cell consists of a current collector, electrode, electrolyte, and separator. This study used young coconut fiber biomass as a supercapacitor electrode, H 2 SO 4 as an electrolyte, 316L stainless steel as a current collector, and chicken eggshell membrane as a separator. The fabrication of electrode carbon made from young coco fiber begins with the pre-carbonization process, chemical activation using 0.5M KOH, carbonization process using N 2 gas at a temperature of 600 °C, and physical activation using CO 2 gas at a temperature of 750 °C. Analysis of electrochemical characteristics using cyclic voltammetry method resulting in a specific capacitance value of 197.05 F/g for a scan rate of 1 mV/s, 157.215 F/g for a scan rate of 2 mV/s, and 129.42 F/g for scan rate of 5 mV/s.

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Komunikasi Fisika Indonesia

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