Ultrahigh rate capability and ultralong cycling stability of sodium-ion batteries enabled by wrinkled black titania nanosheets with abundant oxygen vacancies

Ma Lianbo; Gao Xin; Zhang Wenjun; Yuan Hao; Hu Yi; Zhu Guoyin; Chen Renpeng; Chen Tao; Tie Zuoxiu; Liu Jie; Wu Tom; Jin Zhong

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Ultrahigh rate capability and ultralong cycling stability of sodium-ion batteries enabled by wrinkled black titania nanosheets with abundant oxygen vacancies

机译：用皱折的黑色二氧化钛纳米液位，使钠离子电池的超高速率能力和超轻循环稳定性，具有丰富的氧气空缺

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Sodium-ion batteries (SIBs) have been considered as one of the promising alternatives for lithium-ion batteries, owning to the abundant reserve and low cost of sodium-related salts. However, SIBs usually suffer from the sluggish kinetics of Na+ and the serious volume expansion of anode materials, which inevitably restrict the performance of SIBs. Herein, electroconductive wrinkled anatase-phase black titanium oxide nanosheets with rich oxygen vacancies (OVs-TiO2-x) was found to have an ultrafast Na+ insertion and extraction kinetics as anode material in SIBs. The wrinkled structure can significantly reduce the Na+ diffusion length, and the conductive networks formed by wrinkled OVs-TiO2-x can boost the electron transfer during Na+ insertion and extraction processes. With the rapid Na+ insertion/extraction ability, wrinkled OVs-TiO2-x delivers excellent sodium storage performance with high reversible capacity, ultra-high rate capability with the capacity reaches 91 mAh g(-1) even at 20,000 mA g(-1), and ultra-long cycling stability. These properties demonstrated the great potential of wrinkled OVs-TiO2-x to serve as a realistic choice of anode materials in SIBs.

机译：钠离子电池（SIBs）被认为是锂离子电池的有前途替代品之一，拥有丰富的储备和钠钠相关盐的低成本。然而，SIBs通常遭受Na +的缓慢动力学和阳极材料的严重膨胀，这不可避免地限制SIBs的性能。这里，发现具有富氧空位（OVS-TiO2-X）的导电皱酶相 - 相黑氧化物纳米片具有超快Na +插入和提取动力学作为SIBs中的阳极材料。褶皱结构可以显着降低Na +扩散长度，并且由皱纹OVS-TiO2-X形成的导电网络可以在Na +插入和提取过程期间提高电子传递。随着Na +插入/提取能力的快速，皱纹的OVS-TiO2-X提供了优异的钠储存性能，具有高可逆容量，超高速率能力，即使在20,000 mA G（-1）中，高速率容量也达到91mAhg（-1），和超长循环稳定性。这些性质证明了皱纹OVS-TiO2-X的潜力，作为SIBs中的阳极材料的现实选择。

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来源
《Nano Energy》 |2018年第2018期|共6页
作者
Ma Lianbo; Gao Xin; Zhang Wenjun; Yuan Hao; Hu Yi; Zhu Guoyin; Chen Renpeng; Chen Tao; Tie Zuoxiu; Liu Jie; Wu Tom; Jin Zhong;
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作者单位

Nanjing Univ Sch Chem &

Chem Engn Key Lab Mesoscop Chem MOE Nanjing 210023 Jiangsu Peoples R China;

Nanjing Univ Sch Chem &

Chem Engn Key Lab Mesoscop Chem MOE Nanjing 210023 Jiangsu Peoples R China;

Nanjing Univ Sch Chem &

Chem Engn Key Lab Mesoscop Chem MOE Nanjing 210023 Jiangsu Peoples R China;

Nanjing Univ Sch Chem &

Chem Engn Key Lab Mesoscop Chem MOE Nanjing 210023 Jiangsu Peoples R China;

Nanjing Univ Sch Chem &

Chem Engn Key Lab Mesoscop Chem MOE Nanjing 210023 Jiangsu Peoples R China;

Nanjing Univ Sch Chem &

Chem Engn Key Lab Mesoscop Chem MOE Nanjing 210023 Jiangsu Peoples R China;

Nanjing Univ Sch Chem &

Chem Engn Key Lab Mesoscop Chem MOE Nanjing 210023 Jiangsu Peoples R China;

Nanjing Univ Sch Chem &

Chem Engn Key Lab Mesoscop Chem MOE Nanjing 210023 Jiangsu Peoples R China;

Nanjing Univ Sch Chem &

Chem Engn Key Lab Mesoscop Chem MOE Nanjing 210023 Jiangsu Peoples R China;

Nanjing Univ Sch Chem &

Chem Engn Key Lab Mesoscop Chem MOE Nanjing 210023 Jiangsu Peoples R China;

KAUST Phys Sci &

Engn Div Thuwal 239556900 Saudi Arabia;

Nanjing Univ Sch Chem &

Chem Engn Key Lab Mesoscop Chem MOE Nanjing 210023 Jiangsu Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类能源与动力工程;
关键词
Sodium-ion batteries; Wrinkled TiO2-x nanosheets with oxygen vacancies; Conductive networks; Rate capability; Cycling stability;

机译：钠离子电池;带有氧空缺的皱纹TiO2-X纳米蛋白酶;导电网络;速率能力;循环稳定性;

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1. Ultrahigh rate capability and ultralong cycling stability of sodium-ion batteries enabled by wrinkled black titania nanosheets with abundant oxygen vacancies [J] . Ma Lianbo, Gao Xin, Zhang Wenjun, Nano Energy . 2018,第期

机译：用皱折的黑色二氧化钛纳米液位，使钠离子电池的超高速率能力和超轻循环稳定性，具有丰富的氧气空缺
2. Achieving high mass loading of Na3V2(PO4)(3)@carbon on carbon cloth by constructing three-dimensional network between carbon fibers for ultralong cycle-life and ultrahigh rate sodium-ion batteries [J] . Guo Donglei, Qin Jinwen, Yin Zhigang, Nano Energy . 2018,第期

机译：通过构建超大循环 - 寿命和超高速率钠离子电池的碳纤维三维网络实现碳布上的Na3v2（PO4）（3）@Carbon
3. Manganese hexacyanoferrate/graphene cathodes for sodium-ion batteries with superior rate capability and ultralong cycle life [J] . Shen Zhilong, Sun Yunpo, Xie Jian, Inorganic Chemistry Frontiers . 2018,第11期

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4. CARBON NANOSHEET FRAMEWORKS DERIVED FROM PEAT MOSS AS HIGH CAPACITY SODIUM ION BATTERY ANODES WITH SUPERB CYCLING AND RATE CAPABILITY [C] . Jia Ding, Huanlei Wang, Zhi Li American Chemical Society National Meeting Exhibition . 2014

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5. Improving the Rate Capability and Cycle Life of Lithium Iron Phosphate Batteries [D] . Ramesh, Vikram. 2018

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机译：钠离子电池：具有用于钠离子电池的多孔结构2D双金属磷化物纳米电池的集成的独立式柔性电极（ADV。Funct。Matter。26/2018）

Ultrahigh rate capability and ultralong cycling stability of sodium-ion batteries enabled by wrinkled black titania nanosheets with abundant oxygen vacancies

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