Sodium‐Ion Batteries: Improving the Rate Capability of 3D Interconnected Carbon Nanofibers Thin Film by Boron, Nitrogen Dual‐Doping | Zendy

Wang Min | Zendy; Yang Yang | Zendy; Yang Zhenzhong | Zendy; Gu Lin | Zendy; Chen Qianwang | Zendy; Yu Yan | Zendy

Open Access

Sodium‐Ion Batteries: Improving the Rate Capability of 3D Interconnected Carbon Nanofibers Thin Film by Boron, Nitrogen Dual‐Doping

Author(s) -

Wang Min,

Yang Yang,

Yang Zhenzhong,

Gu Lin,

Chen Qianwang,

Yu Yan

Publication year - 2017

Publication title -

advanced science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.388

H-Index - 100

ISSN - 2198-3844

DOI - 10.1002/advs.201600468

Subject(s) - boron , materials science , doping , dual (grammatical number) , sodium , carbon fibers , carbon nanofiber , nitrogen , nanotechnology , ion , nanofiber , chemical engineering , thin film , optoelectronics , composite material , chemistry , carbon nanotube , metallurgy , composite number , engineering , art , literature , organic chemistry

Boron, nitrogen dual‐doping 3D hard carbon nanofibers thin film is synthesized using a facile process. The nanofibers exhibit high specific capacity and remarkable high‐rate capability due to the synergistic effect of 3D porous structure, large surface area, and enlarged carbon layer spacing, and the B, N codoping‐induced defects.

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