Plasmo-chemical process of obtaining nanosilicon for lithium-ion batteries-Reference-Cited by-同舟云学术

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Plasmo-chemical process of obtaining nanosilicon for lithium-ion batteries

Published:2022-12-28 Issue:4 Volume:2022 Page:34-42
ISSN:2415-8445
Container-title:Sovremennaâ èlektrometallurgiâ
language:
Short-container-title:Sovrem. elektrometall.

Author:

Petrov S.V., ,Bondarenko S.G.,Koichi Sato, ,

Publisher

International Association Welding

Subject

General Engineering

Reference12 articles.

1. 1. Berdichevsky, G. (2020) The future of energy storage towards a perfect battery with global scale. September 2, 2020. https://www.silanano.com/uploads/Sila-_-The%-Future-of-Energy-Storage-White-Paper.pdf

2. 2. Yuca, N., Taskin, O.S., Arici, E. (2020) An overview on efforts to enhance the Si electrode stability for lithium ion batteries. Energy Storage, 2(1). DOI: https://doi.org/10.1002/est2.94

3. 3. Kuksenko, S.P., Tarasenko, Y.O., Kaleniuk, H.O., Kartel, M.T. (2020) Stable silicon electrodes with vinyliden fluoride polymer binder for lithium-ion batteries. Khimiya, Fizyka ta Tekhnologiya Poverhni, 11(1), 58-71 [in Ukrainian]. DOI: http://doi.org/10.15407/hftp11.01.058

4. 4. Jaumann,T., Gerwig, M., Balach, J. et al. (2017) Dichlorosilane-derived nano-silicon inside hollow carbon spheres as a high-performance anode for Li-ion batteries. J. of Materials Chemistry A, 5, 9262-9271. DOI: https://doi.org/10.1039/C7TA00188F

5. 5. Schwan, J., Nava, G., Mangolini, L. (2020) Critical barriers to the large scale commercialization of silicon-containing batteries. Nanoscale Adv., 2, 4368-4389. DOI: https://doi.org/10.1039/D0NA00589D

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