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1. Thermal stability as well as electrochemical performance of Li-rich and Ni-rich cathode materials—a comparative study

   Lithium-rich cathode materials have emerged as promising materials for high-energy density lithium-ion cells due to their high specific capacity and...

   M. Akhilash, P. S. Salini, ... T. D. Mercy in Ionics

   Article 16 January 2023
   

2. Order–Disorder of Ni, Co, and Mn at (3b) Position in Li(Ni1/3Co1/3Mn1/3)O2

   After reviewing the research status of superstructure in Li(Ni1/3Co1/3Mn1/3)O2, the crystal cell structures of ordered and disordered are described,...

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

   Chapter 2023
   

3. Enabling improved electrochemical properties by uniform sodium do** for Li-rich Mn-based Li_1.2Mn_0.54Ni_0.13Co_0.13O₂ layered oxide

   As one of the most promising cathode materials, Li-rich Mn-based-layered oxides (LRMOs) are highly expected to be applied in high-energy lithium-ion...

   Haitao Chen, Weizhou Li in Ionics

   Article 12 March 2022
   

4. Phase Equilibria in the Li–Mn–Eu–O System

   Abstract

   Phase equilibria in the Li–Mn–Eu–O system were studied for the first time in the temperature range 700–1000°С, and a concentration diagram...

   G. A. Buzanov, G. D. Nipan in Doklady Physical Chemistry

   Article 01 December 2023
   

5. Phase Equilibria in Quasi-Ternary System Li₂O–Mn₂O₃–Eu₂O₃

   Abstract

   Using X-ray powder diffraction and thermal analysis (TG–DSC), samples of the quasi-ternary system Li ₂ O–Mn ₂ O ₃ –Eu ₂ O ₃ , synthesized from...

   G. A. Buzanov, G. D. Nipan in Russian Journal of Inorganic Chemistry

   Article 11 March 2024
   

6. Cobalt-free Li-rich high-capacity cathode material for lithium-ion cells synthesized through sol–gel method and its electrochemical performance

   Lithium-rich layered cathode materials are regarded as promising candidates for lithium-ion batteries (LIBs) due to their high specific capacity and...

   Akhilash Mohanan Pillai, Patteth S. Salini, ... Mercy Thelakkattu Devassy in Ionics

   Article 19 September 2022
   

7. Improvement of electrochemical properties of lithium-rich manganese-based cathode materials by Ta₂O₅

   As one of the most promising cathodes for next-generation lithium-ion batteries, lithium-rich materials have been widely studied because of their...

   **aohui Ding, Qiang Liu, Haitao Zhu in Journal of Solid State Electrochemistry

   Article 24 February 2022
   

8. Enhanced structural and electrochemical properties of Li_1.2Ni_0.13Co_0.13Mn_0.54O₂ cathode with polyaniline polymer for lithium-ion batteries

   In the field of electrochemistry, Li _1.2 Ni _0.13 Co _0.13 Mn _0.54 O ₂ (LRNCM) has become the research hotspot and of the cutting edge among lithium (Li)–rich...

   **angwan Lai, Guorong Hu, ... Ke Du in Ionics

   Article 02 May 2022
   

9. Transition Metal Phosphates/Phosphonates for Lithium-Ion Batteries

   The development of advanced battery technologies for portable electronic devices and electric vehicles requires highly efficient cost effective...

   C. Nithya in Metal Phosphates and Phosphonates

   Chapter 2023
   

10. Coating TiO₂ on lithium-rich Li_1.2Mn_0.54Ni_0.13Co_0.13O₂ material to improve its electrochemical performance

    In this paper, the sol-gel method was used first to obtain the layered cathode material Li _1.2 Mn _0.54 Ni _0.13 Co _0.13 O ₂ , and then the nanoparticles of TiO ₂ ...

    Changkun Song, Wangjun Feng, ... Zhaoyu Huang in Ionics

    Article 26 November 2020
    

11. Evaluate the deflagration potential for commercial cylinder Li-ion cells under adiabatic confinement testing

    The pressure elevation related to the variances in temperature for cylinder Li-ion cells including LiCoO ₂ , LiMnO ₂ , LiFePO _4, and LiNi _1/3 Mn _1/3 Co _1/3 O ₂ ...

    Yih-Wen Wang in Journal of Thermal Analysis and Calorimetry

    Article 16 January 2020
    

12. Grundlagen und Experimente aus dem Bereich der Elektrochemie

    In diesem Kapitel wird die Grundlage für das Verständnis der Herstellung mobiler Energiequellen gelegt, begonnen bei der experimentellen Erarbeitung...

    Jürgen Neumann in Praxishandbuch Chemie im Unterricht

    Chapter 2022
    

13. Phase Equilibria in the Li–W–Mn–O System

    An isothermal compositional subsolidus phase equilibrium diagram of the Li–W–Mn–O system is constructed. Possible solid-state transformations in the...

    G. D. Nipan in Inorganic Materials

    Article 03 September 2018

14. Gel Combustion Synthesis of Li(Ni,Mn,Co,Fe)O₂ Solid Solutions

    Abstract

    An option for the homogeneous substitution of iron for cobalt, nickel, and manganese in solid solutions with a α-NaFeO ₂ -type layered...

    G. D. Nipan, M. N. Smirnova, ... G. E. Nikiforova in Russian Journal of Inorganic Chemistry

    Article 01 October 2019
    

15. Charge Carrier Management in Semiconductors: Modeling Charge Transport and Recombination

    Long-lived charge carriers are necessary to initiate redox reactions on photocatalyst surfaces. The ideal photocatalyst should have charge carriers...

    Nathaniel Aaron Deskins, Pratap Mahesh Rao, Michel Dupuis in Springer Handbook of Inorganic Photochemistry

    Chapter 2022
    

16. Recent progress on lithium-ion batteries with high electrochemical performance

    Lithium-ion batteries (LIBs) have been widely used in many fields such as portable electronics and electric vehicles since their successful...

    Yong Lu, Qiu Zhang, Jun Chen in Science China Chemistry

    Article 25 February 2019

17. Phase equilibria involving solid solutions in the Li–Mn–O system

    Phase equilibria involving LiMn ₂ O _4- , Li ₂ MnO _3- , LiMnO _2- , Mn ₃ O _4- , and MnO-base solid solutions were studied with varied temperature and partial oxygen...

    G. A. Buzanov, G. D. Nipan, ... N. T. Kuznetsov in Russian Journal of Inorganic Chemistry

    Article 01 May 2017

18. Limited Solid Solution Li(Ni_0.33Mn_0.33Co_0.33)_1 – xFe_xO₂ with an α-NaFeO₂ Structure

    Abstract

    Compositions Li(Ni _0.33 Mn _0.33 Co _0.33 ) _{1 –   x} Fe _x O ₂ (0 ≤ х ≤ 1) of the LiNiO ₂ –LiMnO ₂ –LiCoO ₂ –LiFeO ₂ concentration tetrahedron have been studied....

    M. N. Smirnova, M. A. Kop’eva, ... N. F. Nikol’skaya in Doklady Chemistry

    Article 01 May 2019
    

19. Electrochemistry

    Electrochemistry concerns the electron exchanges that occur in chemical reactions. Understanding the theory and wide-ranging applications of...

    Michael Mosher, Paul Kelter in An Introduction to Chemistry

    Chapter 2023
    

20. Li-Rich Layered Oxides and Their Practical Challenges: Recent Progress and Perspectives

    Abstract

    Lithium-rich layered oxides (LLOs), also known as Li _{1+ x} M _{1− x} O ₂ or x Li ₂ MnO ₃ -(1– x )LiMO ₂ (M = Ni, Co, Mn), have been regarded as some of the...

    Sijiang Hu, Anoop. S. Pillai, ... Zai** Guo in Electrochemical Energy Reviews

    Article 19 March 2019