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    Journals >Journal of Inorganic Materials >Volume 36 >Issue 7 >Page 718 > Article
    • Journal of Inorganic Materials
    • Vol. 36, Issue 7, 718 (2021)
    Microwave-assisted Synthesis and Co, Al Co-modification of Ni-rich LiNi0.8Mn0.2O2 Materials for Li-ion Battery Electrode
    Yukun FU1, Min ZENG1, Xianfa RAO1, Shengwen ZHONG1..., Huijuan ZHANG2 and Wenli YAO1,*|Show fewer author(s)
    Author Affiliations
  • 11. Faculty of Materials Metallurgy and Chemistry, Jiangxi University of Science and Technology, Ganzhou 341000, China
  • 22. School of Materials Science and Engineering, University of Shanghai for Science and Technology, Shanghai 200240, China
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    DOI: 10.15541/jim20200522 Cite this Article
    Yukun FU, Min ZENG, Xianfa RAO, Shengwen ZHONG, Huijuan ZHANG, Wenli YAO. Microwave-assisted Synthesis and Co, Al Co-modification of Ni-rich LiNi0.8Mn0.2O2 Materials for Li-ion Battery Electrode[J]. Journal of Inorganic Materials, 2021, 36(7): 718 Copy Citation Text show less
    References

    [1] J LIU, G ZHANG J, Z YANG et al. Materials science and materials chemistry for large scale electrochemical energy storage: from transportation to electrical grid. Adv. Funct. Mater., 23, 929-946(2013).

    [2] J KE, K XIE, Y HAN et al. Morphology controlling of the high-voltage cathode materials with different co-solvents. J. Inorg. Mater., 34, 618-624(2019).

    [3] X LI, W GE, H WANG et al. Research progress on the capacity fading mechanisms of high-nickel ternary layered oxide cathode materials. J. Inorg. Mater., 32, 113-121(2017).

    [4] A MANTHIRAM. A reflection on lithium-ion battery cathode chemistry. Nat. Commun., 11, 1550(2020).

    [6] M LI, L JUN. Cobalt in lithium-ion batteries. Science, 367, 979-980(2020).

    [7] W LI, M ERICKSON E, A MANTHIRAM. High-nickel layered oxide cathodes for lithium-based automotive batteries. Nat. Energy, 5, 26-34(2020).

    [8] E ZHAO, L FANG, M CHEN et al. New insight into Li/Ni disorder in layered cathode materials for lithium ion batteries: a joint study of neutron diffraction, electrochemical kinetic analysis and first-principles calculations. J. Mater. Chem. A, 5, 1679-1686(2017).

    [9] F WU, N LIU, L CHEN et al. Improving the reversibility of the H2-H3 phase transitions for layered Ni-rich oxide cathode towards retarded structural transition and enhanced cycle stability. Nano Energy, 59, 50-57(2019).

    [11] W YAO, Y LIU, D LI et al. Synergistically enhanced electrochemical performance of Ni-rich cathode materials for lithium-ion batteries by K and Ti co-modification. J. Phys. Chem. C, 124, 2346-2356(2020).

    [12] M DIXIT, B MARKOVSKY, F SCHIPPER et al. The origin of structural degradation during cycling and low thermal stability of Ni-rich layered transition metal-based electrode materials. J. Phys. Chem. C, 121, 22628(2017).

    [14] A TORNHEIM, S SHARIFI-ASL, C GARCIA J et al. Effect of electrolyte composition on rock salt surface degradation in NMC cathodes during high-voltage potentiostatic holds. Nano Energy, 55, 216-225(2019).

    [15] K MATSUMOTO, R KUZUO, K TAKEYA et al. Effects of CO2 in air on Li deintercalation from LiNi1-x-yCoxAlyO2. J. Power Sources, 81-82, 558-561(1999).

    [16] S ZHANG S, X FAN, C WANG. Enhanced electrochemical performance of Ni-rich layered cathode materials by using LiPF6 as a cathode additive. ChemElectroChem, 6, 1536-1541(2019).

    [17] T HATSUKADE, A SCHIELE, P HARTMANN et al. Origin of carbon dioxide evolved during cycling of nickel-rich layered NCM cathodes. ACS Appl. Mater. Interfaces, 10, 38892-38899(2018).

    [18] W YAO, Q DAI, Y LIU et al. Microwave-assisted synthesis of Co3O4 sheets for reversible Li storage: regulation of structure and performance. ChemElectroChem, 4, 1236-1242(2017).

    [19] Y LIU, W YAO, C LEI et al. Ni-rich oxide LiNi0.85Co0.05Mn0.1O2 for lithium ion battery: effect of microwave radiation on its morphology and electrochemical property. J. Electrochem. Soc., 166, A1300-A1309(2019).

    [20] M YOSHIO, H NOGUCHI, I ITOH J et al. Preparation and properties of LiCoyMnxNi1-x-yO2 as a cathode for lithium ion batteries. J. Power Sources, 90, 176-181(2000).

    [21] Z LI, J ZHANG, R GAO et al. Unveiling the role of Co in improving the high-rate capability and cycling performance of layered Na0.7Mn0.7Ni0.3-xCoxO2 cathode materials for sodium-ion batteries. ACS Appl. Mater. Interfaces, 8, 15439-15448(2016).

    [22] X BAI, L BAN, W ZHUANG. Research progress on coating and doping modification of nickel rich ternary cathode materials. J. Inorg. Mater., 35, 972-986(2020).

    [23] C LI Y, W XIANG, G WU Z et al. Construction of homogeneously Al3+ doped Ni rich Ni-Co-Mn cathode with high stable cycling performance and storage stability via scalable continuous precipitation. Electrochim. Acta, 291, 84-94(2018).

    [24] J PARK K, J CHOI M, F MAGLIA et al. High-capacity concentration gradient Li[Ni0.865Co0.120Al0.015]O2 cathode for lithium-ion batteries. Adv. Energy Mater., 8, 1703612(2018).

    [25] G ZHAO W, F ZOU L, P JIA H et al. Optimized Al doping improves both interphase stability and bulk structural integrity of Ni-rich NMC cathode materials. ACS Appl. Energy Mater., 3, 3369-3377(2020).

    [27] Z XIE, Y ZHANG, A YUAN et al. Effects of lithium excess and SnO2 surface coating on the electrochemical performance of LiNi0.8Co0.15Al0.05O2 cathode material for lithium-ion batteries. J. Alloys Compd., 787, 429-439(2019).

    [28] J LI, Y LIU, W YAO et al. Li2TiO3 and Li2ZrO3 co-modification LiNi0.8Co0.1Mn0.1O2 cathode material with improved high-voltage cycling performance for lithium-ion batteries. Solid State Ionics, 349, 115292(2020).

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    Yukun FU, Min ZENG, Xianfa RAO, Shengwen ZHONG, Huijuan ZHANG, Wenli YAO. Microwave-assisted Synthesis and Co, Al Co-modification of Ni-rich LiNi0.8Mn0.2O2 Materials for Li-ion Battery Electrode[J]. Journal of Inorganic Materials, 2021, 36(7): 718
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