Electrospun Titania Oxide Nanofibers Coupled Zinc Oxide Nanobranches as a Novel Nanostructure for Lithium Ion Batteries Applications

Muzafar A. Kanjwal; Nasser A. M. Barakat; Faheem A. Sheikh; Hak Yong Kim

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Electrospun Titania Oxide Nanofibers Coupled Zinc Oxide Nanobranches as a Novel Nanostructure for Lithium Ion Batteries Applications

机译：电纺二氧化钛纳米纤维与氧化锌纳米支耦合作为锂离子电池应用的新型纳米结构

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First, electrospinning of colloidal solution consisting of titanium isopropoxide/poly(vinyl acetate) zinc nanoparticles has been achieved to produce polymeric nanofibers embedding solid nanoparticles. Calcination of the obtained electrospun nanofiber mats in air at 600°C has been revealed to produce TiO2 nanofibers containing ZnO nanoparticles; ZnO-doped TiO, nanofibers. The formed ZnO nanoparticles have been exploited as seeds to outgrow ZnO branches around the TiO2 nanofibers using a hydrothermal technique. As anode in lithium ion battery, the prepared nanostructure exhibited a high rate capacity of 1232 mAhg!.

机译：首先，已经实现了由异丙醇钛/聚乙酸乙烯酯锌纳米颗粒组成的胶体溶液的电纺丝，以生产包埋固体纳米颗粒的聚合物纳米纤维。已经发现，在空气中于600℃下煅烧所获得的电纺纳米纤维垫可产生含有ZnO纳米粒子的TiO2纳米纤维。 ZnO掺杂的TiO，纳米纤维。形成的ZnO纳米粒子已被用作种子，使用水热技术将ZnO分支生长在TiO2纳米纤维周围。作为锂离子电池中的阳极，制备的纳米结构表现出1232 mAhg！的高倍率容量。

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《Bioceramics Development and Applications》 |2011年第1期|共3页
作者
Muzafar A. Kanjwal; Nasser A. M. Barakat; Faheem A. Sheikh; Hak Yong Kim;
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中图分类化学工业;
关键词
titanium oxidezinc oxidelithium ion batterieselectrospinning;

机译：氧化钛氧化锌锂离子电池电纺;

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专利

1. Titanium oxide nanofibers attached to zinc oxide nanobranches as a novel n a nostril ctu re for lithium ion batteries applications [J] . Muzafar A. Kanjwal, Nasser A. M. Barakat, Faheem A. Sheikh Journal of Ceramic Processing Research. (Text in English) . 2010,第4期

机译：附着在氧化锌纳米支上的氧化钛纳米纤维作为锂离子电池应用的新型鼻孔
2. Electrospun Zn_(1-x)Mn_xFe2O4 Nanofibers As Anodes for Lithium-Ion Batteries and the Impact of Mixed Transition Metallic Oxides on Battery Performance [J] . Pei Fen Teh, Stevin Snellius Pramana, Yogesh Sharma ACS applied materials & interfaces . 2013,第12期

机译：Zn_（1-x）Mn_xFe2O4纳米电纺丝作为锂离子电池的阳极以及混合过渡金属氧化物对电池性能的影响
3. Zeolitic imidazolate framework-8 derived zinc oxide/ carbon nanofiber as freestanding electrodes for lithium storage in lithium-ion batteries [J] . Samuel Edmund, Joshi Bhavana, Kim Min-Woo, Journal of power sources . 2018,第AUGa15期

机译：沸石咪唑酸酯骨架8衍生的氧化锌/碳纳米纤维作为用于锂离子电池中锂存储的独立电极
4. ELECTROSPUN SILICON MICRO-POWDERS AND TITANIUM DIOXIDE COMPOSITE NANOFIBERS FOR ADVANCED LITHIUM ION BATTERIES [C] . Ji Wu, Kathleen McCormac, Toan Tran American Chemical Society National Meeting Exhibition . 2014

机译：用于高级锂离子电池的Electrome硅微粉和二氧化钛复合纳米纤维
5. Beyond Lithium-Ion: Reaction Mechanisms of Low-Cost Rechargeable Zinc/Manganese Dioxide and Lithium/Sulfur Batteries [D] . Li, Yun. 2019

机译：超越锂离子：低成本可充电锌/二氧化锰和锂/硫电池的反应机理
6. Synthesis and characterization of electrospun molybdenum dioxide–carbon nanofibers as sulfur matrix additives for rechargeable lithium–sulfur battery applications [O] . Ruiyuan Zhuang, Shanshan Yao, Maoxiang Jing, 2018

机译：电纺二氧化钼-碳纳米纤维的合成和表征作为可再充电锂-硫电池应用中的硫基质添加剂
7. Electrospun Metal Oxides and Carbon Nanofiber-Based Materials in the Application of Rechargeable Lithium Battery [O] . WU YONGZHI 2014

机译：电纺金属氧化物和碳纳米纤维基材料在可充电锂电池中的应用

Electrospun Titania Oxide Nanofibers Coupled Zinc Oxide Nanobranches as a Novel Nanostructure for Lithium Ion Batteries Applications

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