可持续生态友好亚微米NaCl晶体粉末辅助合成稻壳负极材料SiOx/C的研究

IF 10.7 Q1 CHEMISTRY, PHYSICAL
EcoMat Pub Date : 2023-09-21 DOI:10.1002/eom2.12401
Se Hun Lee, Youngseul Cho, Young Pyo Jeon, Yujin Chang, Kyu Sang Lee, Dongpyo Hong, Ok Sung Jeon, Yongyeol Park, Hyun Seo Yang, Young Joon Yoo, Sang Yoon Park, Yuanzhe Piao
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引用次数: 0

摘要

摘要本研究以稻壳为原料,采用NaCl亚微米晶体辅助合成方法制备SiO x /C,减轻了环境降解和危害,简化了制备过程,提高了电化学性能。在合成过程中,NaCl诱导催化石墨化、碳活化和无定形二氧化硅的形成。此外,它只是部分消耗,可以再结晶和无限重复使用。我们的NaCl亚微米晶体粉末辅助方法制备了由稻壳衍生的SiO x /C阳极的锂离子电池(LIBs),在0.05 a∙g−1电流密度下具有422.05/915.93 mAh∙g−1的高初始充放电容量和稳定的循环性能。此外,NaCl微晶法制备的SiO x /C电极在0.05 A∙g−1电流密度下的容量为333.96 mAh∙g−1。相比之下,裸稻壳电极在相同条件下的容量较低,为333.96 mAh∙g−1。图像
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Sustainable eco‐friendly sub‐micron <scp>NaCl</scp> crystal powder‐assisted method to synthesize <scp>SiO<sub>x</sub></scp>/C as anode materials originated from rice husk for lithium‐ion batteries

Sustainable eco‐friendly sub‐micron NaCl crystal powder‐assisted method to synthesize SiOx/C as anode materials originated from rice husk for lithium‐ion batteries
Abstract In the present study, we produced SiO x /C from rice husk by the NaCl sub‐micron crystal‐assisted synthesis method which can mitigate environmental degradation and hazards, simplify preparation, and improve electrochemical performance. During synthesis, NaCl induces catalytic graphitization, carbon activation, and amorphous silica formation. Moreover, it is only partially consumed and can be recrystallized and reused indefinitely. Our NaCl sub‐micron crystal powder‐assisted method created lithium‐ion batteries (LIBs) with rice husk‐derived SiO x /C anodes that exhibited a high initial charge/discharge capacity of 422.05/915.93 mAh∙g −1 at 0.05 A∙g −1 current density and stable cycling performance. In addition, the SiO x /C electrode produced by the NaCl micro‐crystal method had 333.96 mAh∙g −1 capacity at 0.05 A∙g −1 current density. By contrast, bare rice husk electrode exhibited a lower capacity of 333.96 mAh∙g −1 at the same condition. image
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来源期刊
CiteScore
17.30
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