Outstanding electrochemical performances of the all-solid-state lithium battery using Ni-rich layered oxide cathode and sulfide electrolyte | Semantic Scholar (2024)

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@article{Li2020OutstandingEP, title={Outstanding electrochemical performances of the all-solid-state lithium battery using Ni-rich layered oxide cathode and sulfide electrolyte}, author={Xuelei Li and Qifang Sun and Zhengyu Wang and Dawei Song and Hongzhou Zhang and Xixi Shi and Chunliang Li and Lianqi Zhang and Lingyun Zhu}, journal={Journal of Power Sources}, year={2020}, volume={456}, pages={227997}, url={https://api.semanticscholar.org/CorpusID:216248771}}
  • Xuelei Li, Qifang Sun, Lingyun Zhu
  • Published 30 April 2020
  • Materials Science, Engineering, Chemistry
  • Journal of Power Sources

54 Citations

Highly Influential Citations

1

Background Citations

5

54 Citations

Single-Crystal-Layered Ni-Rich Oxide Modified by Phosphate Coating Boosting Interfacial Stability of Li10 SnP2 S12 -Based All-Solid-State Li Batteries.
    Xiaohua LiZhao Jiang J. Tu

    Materials Science, Engineering

    Small

  • 2021

Interfacial modification is an effective approach for achieving high-performance sulfide-based ASSLBs with superior interfacial stability and demonstrates chemical inertness to both the oxide cathode and Li10 SnP2 S12 electrolyte.

High-rate and long-life Ni-rich oxide cathode under high mass loading for sulfide-based all-solid-state lithium batteries
    Xuelei LiYiming Sun Lingyun Zhu

    Materials Science, Engineering

  • 2021
  • 11
Insight into cathode surface to boost the performance of solid-state batteries
    Sixu DengQian Sun X. Sun

    Materials Science, Engineering

  • 2021
  • 50
  • PDF
Surface-modified and sulfide electrolyte-infiltrated LiNi0.6Co0.2Mn0.2O2 cathode for all-solid-state lithium batteries.
    Genjie HuangY. ZhongX. XiaXiuli WangC. GuJ. Tu

    Materials Science, Engineering

    Journal of colloid and interface science

  • 2022
  • 4
Preparation of Metal-Oxide-Doped Li7P2S8Br0.25I0.75 Solid Electrolytes for All-Solid-State Lithium Batteries.
    R. RajagopalY. SubramanianY. JungSung KangK. Ryu

    Materials Science, Chemistry

  • 2023

The all-solid-state lithium battery (ASSB) has received great attention due to its greater safety than the conventional lithium-ion battery (LIB). Sulfide-based inorganic solid electrolytes are an

  • 8
Single crystal cathodes enabling high-performance all-solid-state lithium-ion batteries
    Changhong WangRuizhi Yu X. Sun

    Materials Science, Engineering

  • 2020
  • 89
  • PDF
Well-dispersed single-crystalline nickel-rich cathode for long-life high-voltage all-solid-state batteries
    Wei JiangXinming Fan C. Liang

    Materials Science, Engineering

  • 2021
  • 21
Constructing a High-Energy and Durable Single-Crystal NCM811 Cathode for All-Solid-State Batteries by a Surface Engineering Strategy.
    Xiangsi LiuJ. Shi Yong Yang

    Materials Science, Engineering

  • 2021

This work shows that S-NCM811 delivers a high capacity with outstanding rate capability in ASSBs by the coating of a nano-lithium niobium oxide (LNO) layer via the atomic layer deposition technique combined with optimized post-annealing treatment and offers some new insights into the designing of high-performance cathode materials for ASSBs.

  • 31
Enhancing the electrochemical performances of Li7P3S11 electrolyte through P2O5 substitution for all-solid-state lithium battery
  • 13
Sulfide and Oxide Inorganic Solid Electrolytes for All-Solid-State Li Batteries: A Review
    M. V. ReddyC. JulienA. MaugerK. Zaghib

    Materials Science, Chemistry

    Nanomaterials

  • 2020

The early history, synthesis and characterization, mechanical properties, and Li+ ion transport mechanisms of inorganic sulfide and oxide electrolytes, and promising electrolyte systems based on sulfides and argyrodites are reported.

  • 161
  • PDF

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51 References

Capacity Fade in Solid-State Batteries: Interphase Formation and Chemomechanical Processes in Nickel-Rich Layered Oxide Cathodes and Lithium Thiophosphate Solid Electrolytes
    Raimund KoerverIsabel Aygün J. Janek

    Materials Science, Chemistry

  • 2017

All-solid-state lithium ion batteries may become long-term, stable, high-performance energy storage systems for the next generation of electric vehicles and consumer electronics, depending on the

  • 586
Insights on the fundamental lithium storage behavior of all-solid-state lithium batteries containing the LiNi0.8Co0.15Al0.05O2 cathode and sulfide electrolyte
    Gang. PengX. Yao Xiaoxiong Xu

    Materials Science, Engineering

  • 2016
  • 61
All-solid-state batteries with slurry coated LiNi0.8Co0.1Mn0.1O2 composite cathode and Li6PS5Cl electrolyte: Effect of binder content
    Jun ZhangHaoyue Zhong Wenkui Zhang

    Materials Science, Engineering

    Journal of Power Sources

  • 2018
  • 142
LiNbO3-coated LiNi0.8Co0.1Mn0.1O2 cathode with high discharge capacity and rate performance for all-solid-state lithium battery
    Xuelei LiLiubing Jin Lingyun Zhu

    Materials Science, Engineering

    Journal of Energy Chemistry

  • 2020
  • 144
A rocking chair type all-solid-state lithium ion battery adopting Li2O–ZrO2 coated LiNi0.8Co0.15Al0.05O2 and a sulfide based electrolyte
    S. ItoS. Fujiki N. Machida

    Materials Science, Engineering

  • 2014
  • 306
Impact of Cathode Material Particle Size on the Capacity of Bulk-Type All-Solid-State Batteries
    F. StraussT. Bartsch T. Brezesinski

    Materials Science, Engineering

  • 2018

The implementation of all-solid-state batteries (ASSBs) is regarded as an important step toward next-generation energy storage systems, in particular for electric vehicles and portable electronics.

  • 177
All-solid-state lithium secondary batteries with oxide-coated LiCoO2 electrode and Li2S–P2S5 electrolyte
    A. SakudaHirokazu KitauraA. HayashiK. TadanagaM. Tatsumisago

    Materials Science, Engineering

  • 2009
  • 95
Stabilizing nickel-rich layered cathode materials by a high-charge cation doping strategy: zirconium-doped LiNi0.6Co0.2Mn0.2O2
    F. SchipperM. Dixit D. Aurbach

    Materials Science

  • 2016

Ni-rich layered lithiated transition metal oxides Li[NixCoyMnz]O2 (x + y + z = 1) are the most promising materials for positive electrodes for advanced Li-ion batteries. However, one of the drawbacks

  • 211
  • PDF
Monolithic All-Phosphate Solid-State Lithium-Ion Battery with Improved Interfacial Compatibility.
    Shicheng YuAndreas MertensH. TempelR. SchierholzH. KunglR. Eichel

    Materials Science, Engineering

  • 2018

The analysis of interfacial charge transfer kinetics confirmed the structural and electrical properties of the electrodes and their interfaces with the electrolyte, as evidenced by the excellent cycling performance of the all-phosphate solid-state battery.

  • 64
  • PDF
Electrochemical performance of all-solid-state lithium secondary batteries with Li–Ni–Co–Mn oxide positive electrodes
    Hirokazu KitauraA. HayashiK. TadanagaM. Tatsumisago

    Materials Science, Chemistry

  • 2010
  • 68

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