Fabrication of a LiNiMnTiMgNbMoO cathode for low-cost long-life lithium-ion batteries
The high price of Co and Ni restricts the development of the lithium-ion battery industry. Reducing the Ni content and eliminating Co is an effective way to lower the cost. In this work, we eliminate the Co in NCM523 cathodes by using a complex concentrated doping strategy. LiNi 0.5 Mn 0.4 Ti 0.03 M...
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Published in | Chemical communications (Cambridge, England) Vol. 59; no. 4; pp. 612 - 615 |
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Main Authors | , , , , , |
Format | Journal Article |
Published |
16.05.2023
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Online Access | Get full text |
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Abstract | The high price of Co and Ni restricts the development of the lithium-ion battery industry. Reducing the Ni content and eliminating Co is an effective way to lower the cost. In this work, we eliminate the Co in NCM523 cathodes by using a complex concentrated doping strategy. LiNi
0.5
Mn
0.4
Ti
0.03
Mg
0.03
Nb
0.01
Mo
0.03
O
2
shows an unparalleled cost advantage with relatively high specific energy (>720 W h kg
−1
) and significantly improved overall performance (96% capacity retained after 1000 cycles). This report offers an important pathway to fabricate cathode materials for low-cost and long-life LIBs.
In this work, a low-cost Co-free LiNi
0.5
Mn
0.4
Ti
0.03
Mg
0.03
Nb
0.01
Mo
0.03
O
2
(NCM504) cathode was synthesized by a complex concentrated doping strategy with excellent structural stability for long-life lithium-ion batteries. |
---|---|
AbstractList | The high price of Co and Ni restricts the development of the lithium-ion battery industry. Reducing the Ni content and eliminating Co is an effective way to lower the cost. In this work, we eliminate the Co in NCM523 cathodes by using a complex concentrated doping strategy. LiNi
0.5
Mn
0.4
Ti
0.03
Mg
0.03
Nb
0.01
Mo
0.03
O
2
shows an unparalleled cost advantage with relatively high specific energy (>720 W h kg
−1
) and significantly improved overall performance (96% capacity retained after 1000 cycles). This report offers an important pathway to fabricate cathode materials for low-cost and long-life LIBs.
In this work, a low-cost Co-free LiNi
0.5
Mn
0.4
Ti
0.03
Mg
0.03
Nb
0.01
Mo
0.03
O
2
(NCM504) cathode was synthesized by a complex concentrated doping strategy with excellent structural stability for long-life lithium-ion batteries. |
Author | Qiu, Kangwen Song, Jun Ouyang, Yuge Bai, Liuyang Cheng, Jinbing Luo, Yongsong |
AuthorAffiliation | College of Chemistry and Materials Engineering Henan International Joint Laboratory of MXene Materials Microstructure Huanghuai University Henan Joint International Research Laboratory of New Energy Storage Technology College of Energy Engineering Nanyang Normal University Key Laboratory of Microelectronics and Energy of Henan Province Xinyang Normal University College of Physics and Electronic Engineering School of Physics and Electronic Engineering Beijing Technology and Business University |
AuthorAffiliation_xml | – name: Key Laboratory of Microelectronics and Energy of Henan Province – name: Beijing Technology and Business University – name: School of Physics and Electronic Engineering – name: Huanghuai University – name: College of Energy Engineering – name: Henan Joint International Research Laboratory of New Energy Storage Technology – name: Xinyang Normal University – name: College of Chemistry and Materials Engineering – name: Nanyang Normal University – name: Henan International Joint Laboratory of MXene Materials Microstructure – name: College of Physics and Electronic Engineering |
Author_xml | – sequence: 1 givenname: Kangwen surname: Qiu fullname: Qiu, Kangwen – sequence: 2 givenname: Liuyang surname: Bai fullname: Bai, Liuyang – sequence: 3 givenname: Jun surname: Song fullname: Song, Jun – sequence: 4 givenname: Yuge surname: Ouyang fullname: Ouyang, Yuge – sequence: 5 givenname: Jinbing surname: Cheng fullname: Cheng, Jinbing – sequence: 6 givenname: Yongsong surname: Luo fullname: Luo, Yongsong |
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Title | Fabrication of a LiNiMnTiMgNbMoO cathode for low-cost long-life lithium-ion batteries |
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