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Future Lithium-ion Batteries
Edited by
Hardback ISBN:
978-1-78801-418-2
PDF ISBN:
978-1-78801-612-4
EPUB ISBN:
978-1-78801-760-2
No. of Pages:
367
Publication date:
14 Mar 2019
Book Chapter
CHAPTER 3: Modification of Layered Oxide Cathode Materials
By
J. Dong
;
J. Dong
University of Oulu, Research Unit of Sustainable Chemistry
P.O. Box 4000
FI-90014 Oulu
Finland
ulla.lassi@oulu.fi
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M. Hietaniemi
;
M. Hietaniemi
University of Oulu, Research Unit of Sustainable Chemistry
P.O. Box 4000
FI-90014 Oulu
Finland
ulla.lassi@oulu.fi
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J. Välikangas
;
J. Välikangas
University of Jyvaskyla, Kokkola University Consortium Chydenius
Talonpojankatu 2B
FI-67100 Kokkola
Finland
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T. Hu
;
T. Hu
University of Oulu, Research Unit of Sustainable Chemistry
P.O. Box 4000
FI-90014 Oulu
Finland
ulla.lassi@oulu.fi
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U. Lassi
U. Lassi
University of Oulu, Research Unit of Sustainable Chemistry
P.O. Box 4000
FI-90014 Oulu
Finland
ulla.lassi@oulu.fi
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Published:14 Mar 2019
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Page range:
44 - 71
Citation
J. Dong, M. Hietaniemi, J. Välikangas, T. Hu, U. Lassi, 2019. "Modification of Layered Oxide Cathode Materials", Future Lithium-ion Batteries, Ali Eftekhari
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Layer-structured cathode materials for lithium-ion batteries are considered. These materials, such as LCO, NCM, NCA, lithium rich cathode oxides and blended cathodes are well-known for the intercalation mechanism. Future of lithium-ion batteries is also strongly based on these cathode chemistries, but to overcome some drawbacks and challenges, the improved materials are needed. In this chapter, modification of layer-structured cathode materials by doping and coating are discussed. Especially, coating materials and doping methods are considered.
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