Tin/Tinoxide (Sn/SnO_2) Nanocomposites Thin Films as Negative-Electrode Materials for Li-Ion Batteries

M. Alaf; D. Gultekin; H. Akbulut

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Tin/Tinoxide (Sn/SnO_2) Nanocomposites Thin Films as Negative-Electrode Materials for Li-Ion Batteries

机译：锡/二氧化锡（Sn / SnO_2）纳米复合薄膜作为锂离子电池的负极材料

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In this study, tin/tinoxide (Sn/SnO_2) nanocomposites thin films were produced by thermal evaporation and plasma oxidation as anode materials for Li-ion batteries. To produce Sn/SnO_2 thin films, pure metallic tin (Sn) was thermally evaporated on the stainless steel substrates in argon atmosphere. The Sn films were subjected to plasma oxidation process at oxygen/argon gas mixture. Three different plasma oxidation times (30, 45, and 60 min) were used to investigate oxidation kinetics and physical and microstructural properties. The surface properties were studied by scanning electron microscopy and atomic force microscopy. For structural analysis, X-ray diffraction measurements were carried out. Sn/SnO_2 coated stainless steel substrates were used as the working electrode in coin-type (CR2016) test cells. The energy storage capacity Sn/SnO_2 electrodes were determined depending on the oxidation time and Sn:SnO_2 ratio.

机译：在这项研究中，锡/氧化锡（Sn / SnO_2）纳米复合薄膜是通过热蒸发和等离子体氧化制备的，作为锂离子电池的负极材料。为了生产Sn / SnO_2薄膜，在氩气气氛下将纯金属锡（Sn）在不锈钢基板上热蒸发。在氧气/氩气混合物中对Sn膜进行等离子体氧化处理。使用三种不同的等离子体氧化时间（30、45和60分钟）来研究氧化动力学以及物理和微观结构性质。通过扫描电子显微镜和原子力显微镜研究表面性能。为了进行结构分析，进行了X射线衍射测量。在硬币型（CR2016）测试电池中，将Sn / SnO_2涂层的不锈钢基板用作工作电极。取决于氧化时间和Sn：SnO_2的比例来确定储能容量Sn / SnO_2电极。

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来源
《Acta Physica Polonica 》 |2013年第2期| 323-325| 共3页
作者
M. Alaf; D. Gultekin; H. Akbulut;
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作者单位

Sakarya University, Dept. of Metallurgical & Materials Engineering, 54187, Sakarya, Turkey;

Sakarya University, Dept. of Metallurgical & Materials Engineering, 54187, Sakarya, Turkey;

Sakarya University, Dept. of Metallurgical & Materials Engineering, 54187, Sakarya, Turkey;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
metal and metallic alloys; nanooxidation; lithium-ion batteries;

机译：金属和金属合金;纳米氧化锂离子电池;

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1. A novel tin-based nanocomposite oxide as negative-electrode materials for Li-ion batteries [J] . Feng Huang, Zhengyong Yuan, Hui Zhan, Materials Letters . 2003 ,第22a23期

机译：一种新型的锡基纳米复合氧化物作为锂离子电池负极材料
2. The Superior Surface Discharge Capacity of Core-Shell Tinoxide/Multi Walled Carbon Nanotube Nanocomposite Anodes for Li-Ion Batteries [J] . H. Akbulut, M. Alaf, D. Gultekin Acta Physica Polonica . 2014 ,第2期

机译：核壳型氧化锡/多壁碳纳米管纳米复合阳极对锂离子电池的优异表面放电容量
3. Development of high energy capacities of nanoscaled Sn-Cu alloy thin film electrode materials for Li-ion batteries [J] . R.M. Gnanamuthu, S. Mohan, Chang Woo Lee Materials Letters . 2012 ,第期

机译：锂离子电池纳米级Sn-Cu合金薄膜电极材料高能容量的开发
4. SnO_2 THIN FILMS AS POSSIBLE ANODES FOR LI-ION BATTERIES [C] . T. Brousse, R. Retoux, U. Herterich, Batteries for portable applications and electric vehicles . 1997

机译：SnO_2薄膜用作锂电池的阳极
5. Materials Growth and Optoelectronic Properties of Nano-needle Structured Sn-rich SnO Thin Films. [D] . Wong, Andrew A. 2014

机译：纳米针状富锡SnO薄膜的材料生长和光电性能。
6. Superior Electrochemical Performance of Thin-Film Thermoplastic Elastomer-Coated SnSb as an Anode for Li-ion Batteries [O] . Alexander T. Tesfaye, Frédéric Dumur, Didier Gigmes, -1

机译：薄膜热塑性塑料包覆的SnSb作为锂离子电池阳极的优异电化学性能
7. Nanostructured materials and their thin films for Li-ion battery electrodes: synthesis, research and performance [O] . Gints Kučinskis, Kaspars Kaprāns, Gunārs Bajārs 2019

机译：纳米结构材料及其用于锂离子电池电极的薄膜：合成，研究和性能

Tin/Tinoxide (Sn/SnO_2) Nanocomposites Thin Films as Negative-Electrode Materials for Li-Ion Batteries

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