In situ synthesis of ultra-fine, porous, tin oxide-carbon nanocomposites via a molten salt method for lithium-ion batteries

Citation

• Liu, B., Guo, Z., Du, G., Nuli, Y., Hassan, M. & Jia, D. Z. (2010). In situ synthesis of ultra-fine, porous, tin oxide-carbon nanocomposites via a molten salt method for lithium-ion batteries. Journal of Power Sources, 195 (16), 5382-5386.

Digital Object Identifier (doi)

• 10.1016/j.jpowsour.2010.02.084

Scopus Eid

• 2-s2.0-77950916639

Ro Metadata Url

• http://ro.uow.edu.au/hbspapers/1757

Has Global Citation Frequency

• 35 (sourced from Scopus)

Number Of Pages

• 4

Start Page

• 5382

End Page

• 5386

Volume

• 195

Issue

• 16

Abstract

UOW Authors

•   Liu, Bin (external author)
•   Guo, Zaiping
•   Du, Guodong (external author)
•   Nuli, Yanna (external author)
•   Hassan, Mohd Faiz (external author)
•   Jia, Dianzeng (external author)

Publication Date

• 2010

Has Subject Area

• 0204 - CONDENSED MATTER PHYSICS

Published In

• Journal of Power Sources  Journal

Citation

• Liu, B., Guo, Z., Du, G., Nuli, Y., Hassan, M. & Jia, D. Z. (2010). In situ synthesis of ultra-fine, porous, tin oxide-carbon nanocomposites via a molten salt method for lithium-ion batteries. Journal of Power Sources, 195 (16), 5382-5386.

Digital Object Identifier (doi)

• 10.1016/j.jpowsour.2010.02.084

Scopus Eid

• 2-s2.0-77950916639

Ro Metadata Url

• http://ro.uow.edu.au/hbspapers/1757

Has Global Citation Frequency

• 35 (sourced from Scopus)

Number Of Pages

• 4

Start Page

• 5382

End Page

• 5386

Volume

• 195

Issue

• 16