4.7 Article

Higher charge/discharge rates of lithium-ions across engineered TiO2 surfaces leads to enhanced battery performance

CHEMICAL COMMUNICATIONS (2010)

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Journal

CHEMICAL COMMUNICATIONS
Volume 46, Issue 33, Pages 6129-6131

Publisher

ROYAL SOC CHEMISTRY
DOI: 10.1039/c0cc00832j

Keywords

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Categories

Chemistry, Multidisciplinary

Funding

  1. Scientific Research Foundation of the East China University of Science and Technology [YD0142125]
  2. Science and Technology Commission of Shanghai Municipality [09PJ1402800]
  3. Education Commission of Shanghai Municipality [09SG27]
  4. National Natural Science Foundation of China [20925621, 20973059]
  5. Fundamental Research Funds [WJ0913001]
  6. State Education Commission [NCET-09-0347]
  7. Australian Research Council
  8. Queensland Government
  9. University of Queensland
  10. Centre for Computational Molecular Science
  11. Australian Research Council [LE0882357]
  12. Ministry of Education (Singapore) [RG 63/08, M52120096]

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Anatase TiO2 having different percentages of (001)/(101) surface demonstrated different behaviors for Li+ ions insertion and much enhanced rate performance of Li-ion batteries.

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