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1. Modeling the SEI layer formation and its growth in lithium-ion batteries (LiB) during charge–discharge cycling

   A numerical model is developed to analyse the effect of solid electrolyte interphase (SEI layer) formation and SEI layer growth in a Li-ion battery...

   Vikalp Jha, Balaji Krishnamurthy in Ionics

   Article 01 June 2022
   

2. A Review of Solid Electrolyte Interphase (SEI) and Dendrite Formation in Lithium Batteries

   Lithium-metal batteries with high energy/power densities have significant applications in electronics, electric vehicles, and stationary power...

   Borong Li, Yu Chao, ... Jiujun Zhang in Electrochemical Energy Reviews

   Article 03 March 2023
   

3. Forming a stable SEI layer by the synergy effect of methyl p-toluenesulfonate electrolyte additive in Li-ion batteries

   In this study, a novel S-based compound, methyl p-toluene sulfonate (MPTS) has been investigated as film-forming additive in Li/graphite cells....

   Susan Hamidi, Mehran Javanbakht, ... Saeedeh Sarabadani Tafreshi in Ionics

   Article 16 November 2023
   

4. Construction of stable SEI film on Si@C high-loading electrodes by dimethoxydimethylsilane electrolyte additives

   Silicon (Si), with its high capacity and abundant resources, presents a huge application prospect for high-energy density lithium ion batteries....

   Enyang Wang, Yanxia Liu, ... Fan Liu in Ionics

   Article 28 January 2022
   

5. Solid Electrolyte Interface Film on Graphite Surface of Li-Ion Battery

   The full name of electrode surface film is solid electrolyte interphase (interface) film, SEI film, which has a great influence on the performance of...

   Chuan-zheng Yang, Yuwan Lou, ... Baojia **a in Materials and Working Mechanisms of Secondary Batteries

   Chapter 2023
   

6. TriMethylene sulfite as a novel additive for SEI film formation in lithium-ion batteries

   In this study, TriMethylene sulfite (TMS) was evaluated as a new electrolyte additive for improving the performances of lithium-ion batteries (LIBs)....

   Liuyang Zhao, Dong **g, ... Yanhua Cui in Ionics

   Article 15 June 2020
   

7. Unraveling the role of LiODFB salt as a SEI-forming additive for sodium-ion battery

   The sodium-ion battery is a strong candidate for the large-scale energy storage device due to its low cost and abundant resources. However, the...

   Qimeng Zhang, Zhixing Wang, ... Guochun Yan in Ionics

   Article 24 November 2020
   

8. Electrochemical activity and SEI formation inhibition of Al in Ni–Al-O ALD thin films

   Thin-film solid-state lithium-ion batteries (SSLIBs) are promising power supplies for small-scale electronics, particularly for Internet of Things...

   Ilya Mitrofanov, Denis Nazarov, ... Maxim Maximov in Ionics

   Article 25 October 2021
   

9. Fluorinated and sulfurized solid-electrolyte interface enabling durable and fast-charging graphite/LiFePO₄ pouch batteries

   Safe and fast charging is important for graphite/lithium iron phosphate (Gr/LFP) batteries in the fast-growing electric vehicle industry. However,...

   Zhenghua Zhang, Jiugang Hu, ... Hui** Hu in Ionics

   Article 01 May 2024
   

10. Rational design of binder, conductive additive and current collector-free Si/reduced graphene oxide film for superior lithium storage

    Si has been considered as an appealing anode material for high-performance lithium-ion batteries due to its high theoretical capacity. However, the...

    Yankang Zhan, Junsheng Zhu in Ionics

    Article 29 May 2024
    

11. Improvement for tolerance of lithium metal counter electrodes towards sodium contamination in hybrid Li/Na-ion electrolytes

    Since the concept of hybrid Li/Na-ion batteries (HLNIBs) was proposed, many cathode materials with excellent performance and low cost have been...

    Liyang Liu, Xufan Zhao, ... Guobao Xu in Ionics

    Article 15 June 2024
    

12. Review on interfacial compatibility of solid-state lithium batteries

    Solid-state lithium batteries (SSLBs) are one of the most promising next-generation energy storage devices. Firstly, with the purpose of improving...

    Yichi Zhang, Guoxu Zheng, ... Yinan Li in Ionics

    Article 25 March 2023
    

13. Al-induced electroless deposition and characterization of Ni–Sn film anode for Li-ion battery

    Nickel–Tin (Ni–Sn) film was fabricated by aluminum (Al) induced electroless process on copper foils as a current collector. This film was synthesized...

    Shivkanya Shinde, Prabhakar Bhushan, Swatilekha Ghosh in Journal of Solid State Electrochemistry

    Article 09 September 2022
    

14. Nickel oxide thin film electrode synthesized by pneumatic spray pyrolysis with different NiCl₂ concentration

    NiO has attracted much attention because of its environmental friendliness, high natural abundance, and theoretical specific capacity. The...

    Zhiyong Tang, Yun Ou, ... Juanjuan Cheng in Ionics

    Article 05 September 2022
    

15. Inhibition of excessive SEI-forming and improvement of structure stability for LiNi_0.8Co_0.1Mn_0.1O₂ by Li₂MoO₄ coating

    A Li ₂ MoO ₄ -coated LiNi _0.8 Co _0.1 Mn _0.1 O ₂ cathode material was successfully synthesized by introducing Mo source during the lithium mixing process. The...

    Juan Yu, Jiaxin Peng, ... Linbo Li in Ionics

    Article 17 May 2021
    

16. Effect of surface oxidation on the performance of silicon nanoparticles

    Reducing silicon particle size in lithium-ion battery anodes not only mitigates surface stress, prevents pulverization, and reduces SEI film cracking...

    Liang Gao, Wenxin Li, ... Hanyang Gao in Ionics

    Article 10 June 2024
    

17. Interfacial structure changes between amorphous silicon anode/liquid electrolyte using a highly dense and flat model electrode

    Changes in the interfacial structures of the amorphous silicon (a-Si) anode/organic electrolyte interfaces in lithium-ion batteries were investigated...

    Sho Asano, Jun-ichi Hata, ... Masaaki Hirayama in Journal of Solid State Electrochemistry

    Article Open access 01 February 2024
    

18. Simulation exploration on capacity fade and aging prediction of M1254S2 button-type lithium-ion battery

    Small lithium-ion (Li-ion) batteries are often used in smart devices. Due to its low battery capacity, the lifespan of the headset needs to be...

    Feiyang Su, ** **ao, ... Qifan Zhong in Ionics

    Article 24 February 2024
    

19. Modeling the effect of acid attack on the capacity fading in lithium-ion batteries during cycling

    A numerical model is developed to analyse the effect of hydrogen fluoride (acid) formation on the SEI film (solid electrolyte interphase) on capacity...

    Vikalp Jha, Balaji Krishnamurthy in Ionics

    Article 09 March 2022
    

20. Li metal coated with Li₃PO₄ film via atomic layer deposition as battery anode

    Lithium metal is expected to become one of the most high-energy density anode materials for electronic storage device. However, sharp lithium...

    Jiajia Niu, Mingming Wang, ... **anqiang Liu in Ionics

    Article 03 April 2021