PEMBUATAN DAN KARAKTERISASI ELEKTRODA KARBON AKTIF DARI BIOMASSA PELEPAH AREN DENGAN PERSENTASE KOH

Komunikasi Fisika Indonesia Pub Date : 2021-03-31 DOI:10.31258/JKFI.18.1.75-80

Haliza Putri, Rakhmawati Farma

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Abstract

Energy is one of the basic needs in the human life cycle. Energy sources that are often used are non-recyclable energy sources, so a new innovation is needed in overcoming the energy crisis problem by using renewable natural materials, one of which is efforts to make energy storage components made from activated carbon.Activated carbon is a type of carbon that has a large surface area. Activated carbon can be applied as an activated carbon electrode such as lithium ion batteries and supercapacitor. Electrode in this study were produced from sugar palm midrib biomass. The electrodes production utilized chemical activation using Kalium Hydroxyde with various percentage of 5%, 10%, and 15% which of PA-05, PA-10, and PA-15 recpectively. Aktivated carbon electrodes were prepared through a pre-carbonization, chemical activation, carbonization process using N 2 gas at temperature 600 °C and followed by physical activation using CO 2 gas at temperature 900 °C. Analysis using XRD for microstructure show semicrystalline structure for the activated carbon electrodes which is by the presence of peaks at angel of 2θ around 24° and 44° with respectively crystal orientation (002) and (100).

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由棕榈棕榈的生物量抽出的活性碳电极的生成和描述与高能的百分比

能源是人类生命周期的基本需求之一。经常使用的能源是不可回收的能源，因此，利用可再生的天然材料来克服能源危机问题需要一个新的创新，其中之一就是努力用活性炭制成储能组件。活性炭是一种具有大表面积的碳。活性炭可作为锂离子电池、超级电容器等活性炭电极使用。本研究电极取材于糖棕榈中脉生物质。电极的生产采用羟基化钾化学活化，分别为PA-05、PA-10和PA-15的5%、10%和15%。采用预碳化、化学活化、600℃氮气碳化、900℃co2气体物理活化等工艺制备了活性炭电极。用XRD对活性炭电极的微观结构进行了分析，结果表明活性炭电极在24°和44°附近的2θ角处存在半结晶结构，其晶向分别为(002)和(100)。

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Komunikasi Fisika Indonesia

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