Cr doped Li2MnSiO4 carbon composite nanofibers as high energy cathodes for Li ion batteries

Zhang, Shu; Lin, Zhan; Ji, Liwen; Li, Ying; Xu, Guanjie; Xue, Leigang; Li, Shuli; Lu, Yao; TOPRAKÇI, Ozan; Zhang, Xiangwu

doi:10.1039/c2jm32213g

Cr doped Li2MnSiO4 carbon composite nanofibers as high energy cathodes for Li ion batteries

Yazarlar (10)

Shu Zhang
North Carolina State University, Amerika Birleşik Devletleri

Zhan Lin North Carolina State University, Amerika Birleşik Devletleri

Liwen Ji
North Carolina State University, Amerika Birleşik Devletleri

Ying Li
North Carolina State University, Amerika Birleşik Devletleri

Guanjie Xu North Carolina State University, Amerika Birleşik Devletleri

Leigang Xue
North Carolina State University, Amerika Birleşik Devletleri

Shuli Li North Carolina State University, Amerika Birleşik Devletleri

Yao Lu
North Carolina State University, Amerika Birleşik Devletleri

Doç. Dr. Ozan TOPRAKÇI North Carolina State University, Amerika Birleşik Devletleri

Xiangwu Zhang
North Carolina State University, Amerika Birleşik Devletleri

Makale Türü	Özgün Makale (SSCI, AHCI, SCI, SCI-Exp dergilerinde yayınlanan tam makale)
Dergi Adı	JOURNAL OF MATERIALS CHEMISTRY
Dergi ISSN	0959-9428
Dergi Tarandığı Indeksler	SCI-Expanded
Makale Dili	İngilizce	Basım Tarihi	01-2012
Kabul Tarihi	–	Yayınlanma Tarihi	01-01-2012
Cilt / Sayı / Sayfa	22 / 29 / 14661–14666	DOI	10.1039/c2jm32213g
Makale Linki	http://xlink.rsc.org/?DOI=c2jm32213g
UAK Araştırma Alanları	Tekstil Bilimi Lif Teknolojisi Nanoteknoloji

Özet

Li2MnSiO4 with an extremely high theoretical capacity of 332 mA h g−1 has recently gained tremendous interest. However, only around half of this capacity has been realized in practice and the cycling performance is also poor due to the low intrinsic conductivity and unsatisfactory structure stability. In this study, Li2Mn(1−x)CrxSiO4/carbon composite nanofibers are prepared by the combination of electrospinning and Cr doping. The electrospinning process leads to the formation of a conductive carbon nanofiber matrix, which provides fast ion transport and charge transfer. Cr doping further improves crystal structure stability by increasing the unit cell volume and inducing defects in the lattice. The resultant Li2Mn(1−x)CrxSiO4/carbon composite nanofibers exhibit a high discharge capacity of 314 mA h g−1 at the 5th cycle and stable cycling performance.

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Atıf Sayıları
Web of Science	74
Google Scholar	92

Cr doped Li2MnSiO4 carbon composite nanofibers as high energy cathodes for Li ion batteries

Cr doped Li2MnSiO4 carbon composite nanofibers as high energy cathodes for Li ion batteries

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