Search Results - "Yang, Hanxi"

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  1. 1

    Hierarchical Carbon Framework Wrapped Na3V2(PO4)3 as a Superior High-Rate and Extended Lifespan Cathode for Sodium-Ion Batteries by Fang, Yongjin, Xiao, Lifen, Ai, Xinping, Cao, Yuliang, Yang, Hanxi

    Published in Advanced materials (Weinheim) (21-10-2015)
    “…Hierarchical carbon framework wrapped Na3V2(PO4)3 (HCF‐NVP) is successfully synthesized through chemical vapor deposition on pure Na3V2(PO4)3 particles…”
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  2. 2

    Prussian Blue Cathode Materials for Sodium‐Ion Batteries and Other Ion Batteries by Qian, Jiangfeng, Wu, Chen, Cao, Yuliang, Ma, Zifeng, Huang, Yunhui, Ai, Xinping, Yang, Hanxi

    Published in Advanced energy materials (15-06-2018)
    “…Sodium‐ion batteries (SIBs) are considered to be a low‐cost complement or competitor to Li‐ion batteries for large‐scale electric energy storage applications;…”
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  3. 3

    High Capacity and Rate Capability of Amorphous Phosphorus for Sodium Ion Batteries by Qian, Jiangfeng, Wu, Xianyong, Cao, Yuliang, Ai, Xinping, Yang, Hanxi

    Published in Angewandte Chemie International Edition (22-04-2013)
    “…Turning on your P/C: An amorphous phosphorus/carbon (a‐P/C) composite was synthesized using simple mechanical ball milling of red phosphorus and conductive…”
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  4. 4

    Synergistic Na-Storage Reactions in Sn4P3 as a High-Capacity, Cycle-stable Anode of Na-Ion Batteries by Qian, Jiangfeng, Xiong, Ya, Cao, Yuliang, Ai, Xinping, Yang, Hanxi

    Published in Nano letters (09-04-2014)
    “…Room-temperature Na-ion batteries have attracted great interest as a low cost and environmentally benign technology for large scale electric energy storage,…”
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  5. 5

    Routes to High Energy Cathodes of Sodium-Ion Batteries by Fang, Chun, Huang, Yunhui, Zhang, Wuxing, Han, Jiantao, Deng, Zhe, Cao, Yuliang, Yang, Hanxi

    Published in Advanced energy materials (01-03-2016)
    “…Sodium‐ion batteries (SIBs) are now being actively developed as low cost and sustainable alternatives to lithium‐ion batteries (LIBs) for large‐scale electric…”
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  6. 6

    3D Graphene Decorated NaTi2(PO4)3 Microspheres as a Superior High-Rate and Ultracycle-Stable Anode Material for Sodium Ion Batteries by Fang, Yongjin, Xiao, Lifen, Qian, Jiangfeng, Cao, Yuliang, Ai, Xinping, Huang, Yunhui, Yang, Hanxi

    Published in Advanced energy materials (12-10-2016)
    “…3D graphene decorated NaTi2(PO4)3 (NTP@rGO) is successfully synthesized through a facile spray‐drying method. This NTP@rGO material can deliver high reversible…”
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  7. 7

    A Honeycomb-Layered Na3Ni2SbO6: A High-Rate and Cycle-Stable Cathode for Sodium-Ion Batteries by Yuan, Dingding, Liang, Xinmiao, Wu, Lin, Cao, Yuliang, Ai, Xinping, Feng, Jiwen, Yang, Hanxi

    Published in Advanced materials (Weinheim) (01-09-2014)
    “…A honeycomb layered Na3Ni2SbO6 is synthesized as a cathode for sodium‐ion batteries. This new host material exhibits a high capacity of 117 mA h g−1, a…”
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  8. 8

    Understanding of the sodium storage mechanism in hard carbon anodes by Chen, Xiaoyang, Liu, Changyu, Fang, Yongjin, Ai, Xinping, Zhong, Faping, Yang, Hanxi, Cao, Yuliang

    Published in Carbon energy (01-11-2022)
    “…Hard carbon has been regarded as the most promising anode material for sodium‐ion batteries (SIBs) due to its low cost, high reversible capacity, and low…”
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  9. 9

    Manipulating Adsorption–Insertion Mechanisms in Nanostructured Carbon Materials for High‐Efficiency Sodium Ion Storage by Qiu, Shen, Xiao, Lifen, Sushko, Maria L., Han, Kee Sung, Shao, Yuyan, Yan, Mengyu, Liang, Xinmiao, Mai, Liqiang, Feng, Jiwen, Cao, Yuliang, Ai, Xinping, Yang, Hanxi, Liu, Jun

    Published in Advanced energy materials (06-09-2017)
    “…Hard carbon is one of the most promising anode materials for sodium‐ion batteries, but the low Coulombic efficiency is still a key barrier. In this paper, a…”
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  10. 10

    Suppressing Voltage Fading of Li‐Rich Oxide Cathode via Building a Well‐Protected and Partially‐Protonated Surface by Polyacrylic Acid Binder for Cycle‐Stable Li‐Ion Batteries by Yang, Jingsong, Li, Peng, Zhong, Faping, Feng, Xiangming, Chen, Weihua, Ai, Xinping, Yang, Hanxi, Xia, Dingguo, Cao, Yuliang

    Published in Advanced energy materials (01-04-2020)
    “…Li‐rich manganese based oxides (LRMOs) are considered an attractive high‐capacity cathode for advanced Li‐ion batteries; however, their poor cyclability and…”
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  11. 11

    Mesoporous Amorphous FePO4 Nanospheres as High-Performance Cathode Material for Sodium-Ion Batteries by Fang, Yongjin, Xiao, Lifen, Qian, Jiangfeng, Ai, Xinping, Yang, Hanxi, Cao, Yuliang

    Published in Nano letters (11-06-2014)
    “…FePO4 nanospheres are synthesized successfully through a simple chemically induced precipitation method. The nanospheres present a mesoporous amorphous…”
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  12. 12

    Highly Selective and Pollution‐Free Electrochemical Extraction of Lithium by a Polyaniline/LixMn2O4 Cell by Zhao, Along, Liu, Jincheng, Ai, Xinping, Yang, Hanxi, Cao, Yuliang

    Published in ChemSusChem (05-04-2019)
    “…Conventional lithium extraction processes are inefficient or inadaptable for application in salt‐lake brines with high Mg/Li ratios of ≥6. A new…”
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  13. 13

    Nanosized Na4Fe(CN)6/C Composite as a Low-Cost and High-Rate Cathode Material for Sodium-Ion Batteries by Qian, Jianfeng, Zhou, Min, Cao, Yuliang, Ai, Xinping, Yang, Hanxi

    Published in Advanced energy materials (01-04-2012)
    “…A Na4Fe(CN)6/C nanocomposite prepared simply by ball‐milling Na4Fe(CN)6 with carbon powder displays a full utilization of its one‐electron redox capacity,…”
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  14. 14
  15. 15

    Covalently Bonded Silicon/Carbon Nanocomposites as Cycle-Stable Anodes for Li-Ion Batteries by Fan, Sijia, Wang, Hui, Qian, Jiangfeng, Cao, Yuliang, Yang, Hanxi, Ai, Xinping, Zhong, Faping

    Published in ACS applied materials & interfaces (08-04-2020)
    “…Carbon coating is a popular strategy to boost the cyclability of Si anodes for Li-ion batteries. However, most of the Si/C nanocomposite anodes fail to achieve…”
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  16. 16

    Phosphate Framework Electrode Materials for Sodium Ion Batteries by Fang, Yongjin, Zhang, Jiexin, Xiao, Lifen, Ai, Xinping, Cao, Yuliang, Yang, Hanxi

    Published in Advanced science (01-05-2017)
    “…Sodium ion batteries (SIBs) have been considered as a promising alternative for the next generation of electric storage systems due to their similar…”
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  17. 17

    High-Performance Olivine NaFePO4 Microsphere Cathode Synthesized by Aqueous Electrochemical Displacement Method for Sodium Ion Batteries by Fang, Yongjin, Liu, Qi, Xiao, Lifen, Ai, Xinping, Yang, Hanxi, Cao, Yuliang

    Published in ACS applied materials & interfaces (19-08-2015)
    “…Olivine NaFePO4/C microsphere cathode is prepared by a facile aqueous electrochemical displacement method from LiFePO4/C precursor. The NaFePO4/C cathode shows…”
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  18. 18

    In Situ Grown Fe2O3 Single Crystallites on Reduced Graphene Oxide Nanosheets as High Performance Conversion Anode for Sodium-Ion Batteries by Li, Ting, Qin, Aiqiong, Yang, Lanlan, Chen, Jie, Wang, Qiufan, Zhang, Daohong, Yang, Hanxi

    Published in ACS applied materials & interfaces (14-06-2017)
    “…Electrochemical conversion reactions of metal oxides provide a new avenue to build high capacity anodes for sodium-ion batteries. However, the poor rate…”
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  19. 19

    3D graphene decorated Na4Fe3(PO4)2(P2O7) microspheres as low-cost and high-performance cathode materials for sodium-ion batteries by Yuan, Tianci, Wang, Yanxia, Zhang, Jiexin, Pu, Xiangjun, Ai, Xinping, Chen, Zhongxue, Yang, Hanxi, Cao, Yuliang

    Published in Nano energy (01-02-2019)
    “…Sodium-ion battery has emerged as one of most promising technologies for large-scale energy storage system, and hence has stimulated extensive exploration of…”
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  20. 20

    Electrospun TiO2/C Nanofibers As a High-Capacity and Cycle-Stable Anode for Sodium-Ion Batteries by Xiong, Ya, Qian, Jiangfeng, Cao, Yuliang, Ai, Xinping, Yang, Hanxi

    Published in ACS applied materials & interfaces (06-07-2016)
    “…Nanosized TiO2 is now actively developed as a low-cost and potentially high capacity anode material of Na-ion batteries, but its poor capacity utilization and…”
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