Issue 2, 2012
From the journal:

Nanoscale

[100] Directed Cu-doped h-CoO nanorods: elucidation of the growth mechanism and application to lithium-ion batteries

Ki Min Nam,a   Young Cheol Choi,d   Sung Chul Jung,b   Yong-Il Kim,e   Mi Ru Jo,c   Se Ho Park,a   Yong-Mook Kang,*c   Young-Kyu Han*b  and  Joon T. Park*a  

* Corresponding authors

a Department of Chemistry, Korea Advanced Institute of Science and Technology, Daejeon, Korea
E-mail: joontpark@kaist.ac.kr
Fax: +82 42-350-5826

b Division of Materials Science, Korea Basic Science Institute, Daejeon, Korea
E-mail: ykhan@kbsi.re.kr

c Division of Advanced Materials Engineering, Kongju National University, Chungnam, Korea
E-mail: dake1234@kongju.ac.kr

d LG Chem. Ltd. Research Park, Daejeon, Korea

e Korea Research Institute of Standards and Science (KRISS), Daejeon, Korea

Abstract

Thermal decomposition of Co(acac)3 and Cu(acac)2 in benzylamine leads to the formation of [100] directed Cu-doped h-CoO nanorods, which are very stable in an aqueous solution. The formation mechanism of the [100] directed Cu-doped h-CoO nanorods is fully elucidated by using first-principles calculations, demonstrating that Cu-doping not only changes the growth direction but also enhances the stability of the nanorods significantly. Evaluation of the electrochemical performance of Cu-doped h-CoO nanorods shows high initial Coulombic efficiency and ultrahigh capacity with excellent cycling performance, indicating their suitability as an anode material for next generation lithium-ion batteries.

Graphical abstract: [100] Directed Cu-doped h-CoO nanorods: elucidation of the growth mechanism and application to lithium-ion batteries

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Article information

DOI
https://doi.org/10.1039/C1NR11128K
Article type
Paper
Submitted
19 Aug 2011
Accepted
13 Oct 2011
First published
17 Nov 2011

Nanoscale, 2012,4, 473-477

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[100] Directed Cu-doped h-CoO nanorods: elucidation of the growth mechanism and application to lithium-ion batteries

K. M. Nam, Y. C. Choi, S. C. Jung, Y. Kim, M. R. Jo, S. H. Park, Y. Kang, Y. Han and J. T. Park, Nanoscale, 2012, 4, 473 DOI: 10.1039/C1NR11128K

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