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    Journals >Journal of Inorganic Materials >Volume 39 >Issue 1 >Page 32 > Article
    • Journal of Inorganic Materials
    • Vol. 39, Issue 1, 32 (2024)
    Research Progress on Hard Carbon Anode for Li/Na-ion Batteries
    Mengfei HU1、2, Liping HUANG1, He LI2, Guojun ZHANG1、*, and Houzheng WU2、*
    Author Affiliations
  • 11. State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, Institute of Functional Material, College of Material Science and Engineering, Donghua University, Shanghai 201620, China
  • 22. SIAMC Advanced Materials Corporation, Huzhou 313100, China
    • show less
    DOI: 10.15541/jim20230365 Cite this Article
    Mengfei HU, Liping HUANG, He LI, Guojun ZHANG, Houzheng WU. Research Progress on Hard Carbon Anode for Li/Na-ion Batteries[J]. Journal of Inorganic Materials, 2024, 39(1): 32 Copy Citation Text show less
    Over-view on the application and modification strategies of hard carbon in Li/Na ion batteries
    1. Over-view on the application and modification strategies of hard carbon in Li/Na ion batteries
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    Formation scheme of hard carbon, soft carbon and graphite[3]
    2. Formation scheme of hard carbon, soft carbon and graphite[3]
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    Biomass carbon precursors and their properties
    3. Biomass carbon precursors and their properties
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    (a) Three different mechanisms of lithium/sodium ion storage in hard carbon[28], and (b) four different models of sodium storage in hard carbon[39]
    4. (a) Three different mechanisms of lithium/sodium ion storage in hard carbon[28], and (b) four different models of sodium storage in hard carbon[39]
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    Hard carbon in fast-charging application
    5. Hard carbon in fast-charging application
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    Hard carbon as coating layer for anode
    6. Hard carbon as coating layer for anode
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    Doping and pre-oxidation strategies
    7. Doping and pre-oxidation strategies
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    (a) Schematic showing the control of the nanopores in a typical porous carbon (left) to produce molecular sieve carbon (right), and comparison between their different IEDLs, charge/discharge curves for first two cycles of (b) porous carbon and (c) molecular seive carbon anodes[66]
    8. (a) Schematic showing the control of the nanopores in a typical porous carbon (left) to produce molecular sieve carbon (right), and comparison between their different IEDLs, charge/discharge curves for first two cycles of (b) porous carbon and (c) molecular seive carbon anodes[66]
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    Strategies for improving initial Coulombic efficiency
    9. Strategies for improving initial Coulombic efficiency
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    Abstract
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    Mengfei HU, Liping HUANG, He LI, Guojun ZHANG, Houzheng WU. Research Progress on Hard Carbon Anode for Li/Na-ion Batteries[J]. Journal of Inorganic Materials, 2024, 39(1): 32
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