Springer Nature
Nature Materials
volume 5 issue 7 pages 567-573

High rate capabilities Fe3O4-based Cu nano-architectured electrodes for lithium-ion battery applications

Publication typeJournal Article
Publication date2006-06-18
Springer Nature
scimago Q1
wos Q1
SJR14.204
CiteScore61.8
Impact factor38.5
ISSN14761122, 14764660
DOI:  10.1038/nmat1672
PubMed ID:  16783360
General Chemistry
Condensed Matter Physics
General Materials Science
Mechanical Engineering
Mechanics of Materials
Abstract
All battery technologies are known to suffer from kinetic problems linked to the solid-state diffusion of Li in intercalation electrodes, the conductivity of the electrolyte in some cases and the quality of interfaces. For Li-ion technology the latter effect is especially acute when conversion rather than intercalation electrodes are used. Nano-architectured electrodes are usually suggested to enhance kinetics, although their realization is cumbersome. To tackle this issue for the conversion electrode material Fe3O4, we have used a two-step electrode design consisting of the electrochemically assisted template growth of Cu nanorods onto a current collector followed by electrochemical plating of Fe3O4. Using such electrodes, we demonstrate a factor of six improvement in power density over planar electrodes while maintaining the same total discharge time. The capacity at the 8C rate was 80% of the total capacity and was sustained over 100 cycles. The origin of the large hysteresis between charge and discharge, intrinsic to conversion reactions, is discussed and approaches to reduce it are proposed. We hope that such findings will help pave the way for the use of conversion reaction electrodes in future-generation Li-ion batteries.
Found 
Found 
3 citations
Kolesnikov Evgeny
144 publications 2 406 citations
h-index: 25
National University of Science & Technology (MISiS)
National University of Science & Technology (MISiS)
Research interests
Materials Science
2 citations
Modarresi-Alam Ali Reza
71 publications 1 055 citations 19 reviews
h-index: 20
University of Sistan and Baluchestan
University of Sistan and Baluchestan
Research interests
Organic Chemistry
1 citation
Orudzhev Farid
PhD in Chemistry, associate professor
71 publications 1 066 citations 152 reviews
h-index: 16
Dagestan State University
Dagestan State University
Saint Petersburg State University
Saint Petersburg State University
Amirkhanov Institute of Physics DSC RAS
Amirkhanov Institute of Physics DSC RAS
Research interests
Photocatalysis
1 citation
Ponomarenko Sergey
🥼 🤝
DSc in Chemistry, associate member of the Russian Academy of Sciences 
261 publications 6 084 citations 64 reviews
h-index: 41
Lomonosov Moscow State University
Lomonosov Moscow State University
Enikolopov Institute of Synthetic Polymeric Materials of the Russian Academy of Sciences
Enikolopov Institute of Synthetic Polymeric Materials of the Russian Academy of Sciences
Research interests
Dendrimers
Liquid crystals
Organic Electronics
Self-assembly
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Luponosov Yuriy
🥼 🤝
DSc in Chemistry
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Enikolopov Institute of Synthetic Polymeric Materials of the Russian Academy of Sciences
Enikolopov Institute of Synthetic Polymeric Materials of the Russian Academy of Sciences
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Pyatibratov Mikhail
29 publications 463 citations
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1 citation
Evschik Elizaveta
🥼 🤝
PhD in Chemistry
23 publications 204 citations 24 reviews
h-index: 8
Federal Research Center of Problem of Chemical Physics and Medicinal Chemistry RAS
Federal Research Center of Problem of Chemical Physics and Medicinal Chemistry RAS
Research interests
Electrochemistry
Lithium-ion batteries
1 citation
Petla Ramesh
🥼
PhD in Physics and Mathematics, associate professor, fellow of the Indian Academy of Sciences, Bangalore
30 publications 1 465 citations
h-index: 20
University of Arkansas at Fayetteville
University of Arkansas at Fayetteville
1 citation
Lap Chee
17 publications 646 citations
h-index: 9
1 citation
Imbaquingo Carlos
🥼 🤝
PhD in Engineering
7 publications 130 citations 1 review
h-index: 5
Technical University of Denmark
Technical University of Denmark
Research interests
Electric transport
Electromagnetics
Magnetic materials
Magnetism

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Cite this
GOST |
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GOST Copy
Taberna P. et al. High rate capabilities Fe3O4-based Cu nano-architectured electrodes for lithium-ion battery applications // Nature Materials. 2006. Vol. 5. No. 7. pp. 567-573.
GOST all authors (up to 50) Copy
Taberna P., Mitra S., Poizot P., Simon P., Tarascon J. High rate capabilities Fe3O4-based Cu nano-architectured electrodes for lithium-ion battery applications // Nature Materials. 2006. Vol. 5. No. 7. pp. 567-573.
RIS |
Cite this
RIS Copy
TY - JOUR
DO - 10.1038/nmat1672
UR - https://doi.org/10.1038/nmat1672
TI - High rate capabilities Fe3O4-based Cu nano-architectured electrodes for lithium-ion battery applications
T2 - Nature Materials
AU - Taberna, P.-L.
AU - Mitra, S.
AU - Poizot, P
AU - Simon, P.
AU - Tarascon, J.M.
PY - 2006
DA - 2006/06/18
PB - Springer Nature
SP - 567-573
IS - 7
VL - 5
PMID - 16783360
SN - 1476-1122
SN - 1476-4660
ER -
BibTex |
Cite this
BibTex (up to 50 authors) Copy
@article{2006_Taberna,
author = {P.-L. Taberna and S. Mitra and P Poizot and P. Simon and J.M. Tarascon},
title = {High rate capabilities Fe3O4-based Cu nano-architectured electrodes for lithium-ion battery applications},
journal = {Nature Materials},
year = {2006},
volume = {5},
publisher = {Springer Nature},
month = {jun},
url = {https://doi.org/10.1038/nmat1672},
number = {7},
pages = {567--573},
doi = {10.1038/nmat1672}
}
MLA
Cite this
MLA Copy
Taberna, P.-L., et al. “High rate capabilities Fe3O4-based Cu nano-architectured electrodes for lithium-ion battery applications.” Nature Materials, vol. 5, no. 7, Jun. 2006, pp. 567-573. https://doi.org/10.1038/nmat1672.