Integrated rocksalt–polyanion cathodes with excess lithium and stabilized cycling

Yimeng Huang; Yanhao Dong; Yang Yang; Tongchao Liu; Moonsu Yoon; Sipei Li; Baoming Wang; Ethan Yupeng Zheng; Jinhyuk Lee; Yongwen Sun; Ying Han; Jim Ciston; Colin Ophus; Chengyu Song; Aubrey Penn; Yaqi Liao; Haijin Ji; Ting Shi; Mengyi Liao; Zexiao Cheng; Jingwei Xiang; Yu Peng; Lu Ma; Xianghui Xiao; Wang Hay Kan; Huaican Chen; Wen Yin; Lingling Guo; Wei Ren Liu; Rasu Muruganantham; Chun Chuen Yang; Yuntong Zhu; Qingjie Li; Ju Li

doi:10.1038/s41560-024-01615-6

Integrated rocksalt–polyanion cathodes with excess lithium and stabilized cycling

Yimeng Huang, Yanhao Dong, Yang Yang, Tongchao Liu, Moonsu Yoon, Sipei Li, Baoming Wang, Ethan Yupeng Zheng, Jinhyuk Lee, Yongwen Sun, Ying Han, Jim Ciston, Colin Ophus, Chengyu Song, Aubrey Penn, Yaqi Liao, Haijin Ji, Ting Shi, Mengyi Liao, Zexiao ChengJingwei Xiang, Yu Peng, Lu Ma, Xianghui Xiao, Wang Hay Kan, Huaican Chen, Wen Yin, Lingling Guo, Wei Ren Liu, Rasu Muruganantham, Chun Chuen Yang, Yuntong Zhu, Qingjie Li, Ju Li

物理學系

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

9 引文斯高帕斯（Scopus）

摘要

Co- and Ni-free disordered rocksalt cathodes utilize oxygen redox to increase the energy density of lithium-ion batteries, but it is challenging to achieve good cycle life at high voltages >4.5 V (versus Li/Li⁺). Here we report a family of Li-excess Mn-rich cathodes that integrates rocksalt- and polyanion-type structures. Following design rules for cation filling and ordering, we demonstrate the bulk incorporation of polyanion groups into the rocksalt lattice. This integration bridges the two primary families of lithium-ion battery cathodes—layered/spinel and phosphate oxides—dramatically enhancing the cycling stability of disordered rocksalt cathodes with 4.8 V upper cut-off voltage. The cathode exhibits high gravimetric energy densities above 1,100 Wh kg⁻¹ and >70% retention over 100 cycles. This study opens up a broad compositional space for developing battery cathodes using earth-abundant elements such as Mn and Fe.

原文	???core.languages.en_GB???
文章編號	117941
頁（從 - 到）	1497-1505
頁數	9
期刊	Nature Energy
卷	9
發行號	12
DOIs	https://doi.org/10.1038/s41560-024-01615-6
出版狀態	已出版 - 12月 2024

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10.1038/s41560-024-01615-6

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Huang, Y., Dong, Y., Yang, Y., Liu, T., Yoon, M., Li, S., Wang, B., Zheng, E. Y., Lee, J., Sun, Y., Han, Y., Ciston, J., Ophus, C., Song, C., Penn, A., Liao, Y., Ji, H., Shi, T., Liao, M., ... Li, J. (2024). Integrated rocksalt–polyanion cathodes with excess lithium and stabilized cycling. Nature Energy, 9(12), 1497-1505. 文章 117941. https://doi.org/10.1038/s41560-024-01615-6

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abstract = "Co- and Ni-free disordered rocksalt cathodes utilize oxygen redox to increase the energy density of lithium-ion batteries, but it is challenging to achieve good cycle life at high voltages >4.5 V (versus Li/Li+). Here we report a family of Li-excess Mn-rich cathodes that integrates rocksalt- and polyanion-type structures. Following design rules for cation filling and ordering, we demonstrate the bulk incorporation of polyanion groups into the rocksalt lattice. This integration bridges the two primary families of lithium-ion battery cathodes—layered/spinel and phosphate oxides—dramatically enhancing the cycling stability of disordered rocksalt cathodes with 4.8 V upper cut-off voltage. The cathode exhibits high gravimetric energy densities above 1,100 Wh kg−1 and >70% retention over 100 cycles. This study opens up a broad compositional space for developing battery cathodes using earth-abundant elements such as Mn and Fe.",

author = "Yimeng Huang and Yanhao Dong and Yang Yang and Tongchao Liu and Moonsu Yoon and Sipei Li and Baoming Wang and Zheng, {Ethan Yupeng} and Jinhyuk Lee and Yongwen Sun and Ying Han and Jim Ciston and Colin Ophus and Chengyu Song and Aubrey Penn and Yaqi Liao and Haijin Ji and Ting Shi and Mengyi Liao and Zexiao Cheng and Jingwei Xiang and Yu Peng and Lu Ma and Xianghui Xiao and Kan, {Wang Hay} and Huaican Chen and Wen Yin and Lingling Guo and Liu, {Wei Ren} and Rasu Muruganantham and Yang, {Chun Chuen} and Yuntong Zhu and Qingjie Li and Ju Li",

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doi = "10.1038/s41560-024-01615-6",

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Huang, Y, Dong, Y, Yang, Y, Liu, T, Yoon, M, Li, S, Wang, B, Zheng, EY, Lee, J, Sun, Y, Han, Y, Ciston, J, Ophus, C, Song, C, Penn, A, Liao, Y, Ji, H, Shi, T, Liao, M, Cheng, Z, Xiang, J, Peng, Y, Ma, L, Xiao, X, Kan, WH, Chen, H, Yin, W, Guo, L, Liu, WR, Muruganantham, R, Yang, CC, Zhu, Y, Li, Q & Li, J 2024, 'Integrated rocksalt–polyanion cathodes with excess lithium and stabilized cycling', Nature Energy, 卷 9, 編號 12, 117941, 頁 1497-1505. https://doi.org/10.1038/s41560-024-01615-6

TY - JOUR

T1 - Integrated rocksalt–polyanion cathodes with excess lithium and stabilized cycling

AU - Huang, Yimeng

AU - Dong, Yanhao

AU - Yang, Yang

AU - Liu, Tongchao

AU - Yoon, Moonsu

AU - Li, Sipei

AU - Wang, Baoming

AU - Zheng, Ethan Yupeng

AU - Lee, Jinhyuk

AU - Sun, Yongwen

AU - Han, Ying

AU - Ciston, Jim

AU - Ophus, Colin

AU - Song, Chengyu

AU - Penn, Aubrey

AU - Liao, Yaqi

AU - Ji, Haijin

AU - Shi, Ting

AU - Liao, Mengyi

AU - Cheng, Zexiao

AU - Xiang, Jingwei

AU - Peng, Yu

AU - Ma, Lu

AU - Xiao, Xianghui

AU - Kan, Wang Hay

AU - Chen, Huaican

AU - Yin, Wen

AU - Guo, Lingling

AU - Liu, Wei Ren

AU - Muruganantham, Rasu

AU - Yang, Chun Chuen

AU - Zhu, Yuntong

AU - Li, Qingjie

AU - Li, Ju

PY - 2024/12

Y1 - 2024/12

N2 - Co- and Ni-free disordered rocksalt cathodes utilize oxygen redox to increase the energy density of lithium-ion batteries, but it is challenging to achieve good cycle life at high voltages >4.5 V (versus Li/Li+). Here we report a family of Li-excess Mn-rich cathodes that integrates rocksalt- and polyanion-type structures. Following design rules for cation filling and ordering, we demonstrate the bulk incorporation of polyanion groups into the rocksalt lattice. This integration bridges the two primary families of lithium-ion battery cathodes—layered/spinel and phosphate oxides—dramatically enhancing the cycling stability of disordered rocksalt cathodes with 4.8 V upper cut-off voltage. The cathode exhibits high gravimetric energy densities above 1,100 Wh kg−1 and >70% retention over 100 cycles. This study opens up a broad compositional space for developing battery cathodes using earth-abundant elements such as Mn and Fe.

AB - Co- and Ni-free disordered rocksalt cathodes utilize oxygen redox to increase the energy density of lithium-ion batteries, but it is challenging to achieve good cycle life at high voltages >4.5 V (versus Li/Li+). Here we report a family of Li-excess Mn-rich cathodes that integrates rocksalt- and polyanion-type structures. Following design rules for cation filling and ordering, we demonstrate the bulk incorporation of polyanion groups into the rocksalt lattice. This integration bridges the two primary families of lithium-ion battery cathodes—layered/spinel and phosphate oxides—dramatically enhancing the cycling stability of disordered rocksalt cathodes with 4.8 V upper cut-off voltage. The cathode exhibits high gravimetric energy densities above 1,100 Wh kg−1 and >70% retention over 100 cycles. This study opens up a broad compositional space for developing battery cathodes using earth-abundant elements such as Mn and Fe.

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U2 - 10.1038/s41560-024-01615-6

DO - 10.1038/s41560-024-01615-6

M3 - 期刊論文

AN - SCOPUS:85201959811

SN - 2058-7546

VL - 9

SP - 1497

EP - 1505

JO - Nature Energy

JF - Nature Energy

IS - 12

M1 - 117941

ER -

Integrated rocksalt–polyanion cathodes with excess lithium and stabilized cycling

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