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Enhanced lithium-ion battery performance with a novel composite anode: S-doped graphene oxide, polypyrrole, and fumed silica

M. Al-Bujasim Et Al. , "Enhanced lithium-ion battery performance with a novel composite anode: S-doped graphene oxide, polypyrrole, and fumed silica," Nanotechnology , vol.36, no.11, 2025

Al-Bujasim, M. Et Al. 2025. Enhanced lithium-ion battery performance with a novel composite anode: S-doped graphene oxide, polypyrrole, and fumed silica. Nanotechnology , vol.36, no.11 .

Al-Bujasim, M., GENÇTEN, M., Donmez, K. B., ARVAS, M. B., Yavuz, N., & ŞAHİN, Y., (2025). Enhanced lithium-ion battery performance with a novel composite anode: S-doped graphene oxide, polypyrrole, and fumed silica. Nanotechnology , vol.36, no.11.

Al-Bujasim, Mohammed Et Al. "Enhanced lithium-ion battery performance with a novel composite anode: S-doped graphene oxide, polypyrrole, and fumed silica," Nanotechnology , vol.36, no.11, 2025

Al-Bujasim, Mohammed Et Al. "Enhanced lithium-ion battery performance with a novel composite anode: S-doped graphene oxide, polypyrrole, and fumed silica." Nanotechnology , vol.36, no.11, 2025

Al-Bujasim, M. Et Al. (2025) . "Enhanced lithium-ion battery performance with a novel composite anode: S-doped graphene oxide, polypyrrole, and fumed silica." Nanotechnology , vol.36, no.11.

@article{article, author={Mohammed Al-Bujasim Et Al. }, title={Enhanced lithium-ion battery performance with a novel composite anode: S-doped graphene oxide, polypyrrole, and fumed silica}, journal={Nanotechnology}, year=2025}