Iron nanoparticle templates for constructing 3D graphene framework with enhanced performance in sodium-ion batteries

Campeon Benoit D. L.; Wang Chen; Nishina Yuta

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Iron nanoparticle templates for constructing 3D graphene framework with enhanced performance in sodium-ion batteries

机译：纳米铁粒子模板构建3 d石墨烯增强性能的框架钠电池

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摘要

This study examines the synthesis and electrochemical performance of three-dimensional graphene for Li-ion batteries and Na-ion batteries. The in situ formation of iron hydroxide nanoparticles (Fe(OH)(x) NPs) of various weights on the surface of graphene oxide, followed by thermal treatment at elevated temperature and washing using hydrochloric acid, furnished 3D graphene. The characterization studies confirmed the prevention of graphene layer stacking by over 90% compared with thermal treatment without Fe(OH)(x). The electrochemical performance of the 3D graphene was evaluated as a counter electrode for lithium metal and sodium metal in a half-cell configuration. This material showed good performances with a charging capacity of 507 mA h g(-1) at 372 mA g(-1) in Li-ion batteries and 252 mA h g(-1) at 100 mA g(-1) in Na-ion batteries, which is 1.4 and 1.9 times higher, respectively, than the graphene prepared without Fe(OH)(x) templates.

机译：本研究考察了合成和电化学性能的三维石墨烯在锂离子电池和Na-ion电池。氢氧化物纳米颗粒(Fe (OH) (x) NPs)不同的权重在氧化石墨烯的表面,其次是热处理在升高温度和用盐酸清洗,提供三维石墨烯。研究证实了石墨烯的预防层叠加90%以上而热没有铁(OH) (x)治疗。三维石墨烯的性能是评价对电极金属锂和钠金属在半电池配置。显示良好的表演充电容量507毫安h g(1)在锂离子372 mA g (1)电池和252毫安h g(1)在100 g (1)Na-ion电池,1.4和1.9倍高,比石墨烯分别准备没有铁(OH) (x)模板。

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来源
《Nanoscale》 |2020年第42期|21780-21787|共8页
作者
Campeon Benoit D. L.; Wang Chen; Nishina Yuta;
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作者单位

Okayama Univ, Res Core Interdisciplinary Sci, Kita Ku, 3-1-1 Tsushima Naka, Okayama, Japan;

Okayama Univ, Grad Sch Nat Sci & Technol, Kita Ku, 3-1-1 Tsushima Naka, Okayama 7008530, Japan;

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原文格式 PDF
正文语种英语
中图分类 Online;
关键词
Batteries; graphene; jigs(templates)Nanoparticlescharge capacitySodium Cationenhancing performanceheat treatmentcounter electrodelithium ion battery;

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Iron nanoparticle templates for constructing 3D graphene framework with enhanced performance in sodium-ion batteries

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