Analisis Porositas, Tekstur, dan Morfologi Karbon Tempurung Nipah Hasil Pirolisis Suhu Tinggi Untuk Anoda Baterai Sekunder

Theresia Sri Rahayu, Mohammad Nurhilal, Rosita Dwityaningsih
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引用次数: 1

Abstract

Lithium-ion batteries are the recent main store of electrochemical energy that have been widely used for electronic equipment, electric vehicles, and also renewable energy storage such as wind and solar. Lithium-ion batteries have many electrochemical advantages but lithium availability in nature is reduced very quickly and its distribution is uneven throughout the world. Sodium is attractive as an alternative to lithium insertion for secondary batteries because of its abundant availability and oxidation reduction potential to standard hydrogen electrodes only 0.3 volts higher than lithium. This study aims to synthesize hard carbon from nipah shell biomass using thermal methods of low-temperature pyrolysis (lower than 200 oC) followed by high-temperature pyrolysis (higher than 1000 oC). Characterization is carried out by iodine number analysis to determine porosity and SEM-EDX to determine texture and morphology. The result of the analysis of carbon iodine number is 346.86 mg/g while SEM-EDX analysis showed that carbon has a structure similar to a combination of graphene and nano-tube carbon.
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对二次电池热解源的高热息肉、质地和碳形态的分析
锂离子电池是近年来主要的电化学能量存储,已广泛应用于电子设备、电动汽车以及风能和太阳能等可再生能源存储。锂离子电池具有许多电化学上的优点,但锂在自然界中的可用性迅速减少,而且在世界范围内分布不均匀。钠是二次电池中锂的替代品,因为其丰富的可用性和氧化还原电位仅比锂高0.3伏。本研究以尼帕壳生物质为原料,采用低温热解(低于200℃)-高温热解(高于1000℃)的热法合成硬碳。通过碘值分析来确定孔隙度,通过SEM-EDX来确定结构和形貌。碳碘值分析结果为346.86 mg/g, SEM-EDX分析表明碳具有类似石墨烯和纳米管碳的组合结构。
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0.00%
发文量
30
审稿时长
12 weeks
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