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Fast 3D-lithium-ion diffusion and high electronic conductivity of Li2MnSiO4 surfaces for rechargeable lithium-ion batteries

  • Published:2021 Issue:16 Volume:11 Page:9721-9730
  • ISSN:2046-2069
  • Container-title:RSC Advances
  • language:en
  • Short-container-title:RSC Adv.

Author:

Gurmesa Gamachis Sakata12345ORCID,Benti Natei Ermias1675ORCID,Chaka Mesfin Diro82345ORCID,Tiruye Girum Ayalneh92345ORCID,Zhang Qinfang10111213ORCID,Mekonnen Yedilfana Setarge142345ORCID,Geffe Chernet Amente12345

Affiliation:

1. Department of Physics

2. College of Natural and Computational Sciences

3. Addis Ababa University

4. Addis Ababa

5. Ethiopia

6. College of Natural and Computational Science

7. Wolaita Sodo University

8. Computational Data Science Program

9. Materials Science Program/Department of Chemistry

10. School of Materials Science and Engineering

11. Yancheng Institute of Technology

12. Yancheng 224051

13. China

14. Center for Environmental Science

Abstract

The DFT analysis revealed fast 3D-lithium-ion diffusion pathways and high electronic conductivity in the Li2MnSiO4 surface, and thus paving the way for designing and developing efficient and low-cost rechargeable lithium-ion batteries.

Funder

Addis Ababa University

The World Academy of Sciences

Publisher

Royal Society of Chemistry (RSC)

Subject

General Chemical Engineering,General Chemistry
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