Advancement in Research on Silicon/Carbon Composite Anode Materials for Lithium-Ion Batteries DOI Creative Commons

Binbin Jin,

Liwei Liao, Xinyi Shen

et al.

Metals, Journal Year: 2025, Volume and Issue: 15(4), P. 386 - 386

Published: March 29, 2025

Silicon stands out as an exceptionally viable anode material, distinguished by its substantial capacity, plentiful natural reserves, eco-friendliness, and favorable low working potential. Nonetheless, the material’s pronounced volume fluctuations readily induce particle fragmentation, detachment of active components, repeated disruption solid electrolyte interphase (SEI) layer. These factors contribute to a shortened cycle life rapid capacity fading, thus hindering practical application. The carbon composite approach can efficiently counteract these issues capitalizing on silicon’s high employing cushioning agent diminish swelling, enhancing deployment silicon-based materials. This paper offers exhaustive examination lithiation processes involved in Si/C anodes delves into strategic utilization diverse materials, including graphite, graphene, graphdiyne, nanotubes, fibers, MXenes, pitch, heteroatom-doped polymers, biomass-derived carbon, carbon-containing gas-derived MOFs, g-C3N4 advance application silicon lithium-ion battery (LIB) anodes. Overall, this concentrates summarizing current research status technological advancement juxtaposes merits demerits various sources anodes, providing comprehensive assessment forward-looking perspective their future development.

Language: Английский

Advancement in Research on Silicon/Carbon Composite Anode Materials for Lithium-Ion Batteries DOI Creative Commons

Binbin Jin,

Liwei Liao, Xinyi Shen

et al.

Metals, Journal Year: 2025, Volume and Issue: 15(4), P. 386 - 386

Published: March 29, 2025

Silicon stands out as an exceptionally viable anode material, distinguished by its substantial capacity, plentiful natural reserves, eco-friendliness, and favorable low working potential. Nonetheless, the material’s pronounced volume fluctuations readily induce particle fragmentation, detachment of active components, repeated disruption solid electrolyte interphase (SEI) layer. These factors contribute to a shortened cycle life rapid capacity fading, thus hindering practical application. The carbon composite approach can efficiently counteract these issues capitalizing on silicon’s high employing cushioning agent diminish swelling, enhancing deployment silicon-based materials. This paper offers exhaustive examination lithiation processes involved in Si/C anodes delves into strategic utilization diverse materials, including graphite, graphene, graphdiyne, nanotubes, fibers, MXenes, pitch, heteroatom-doped polymers, biomass-derived carbon, carbon-containing gas-derived MOFs, g-C3N4 advance application silicon lithium-ion battery (LIB) anodes. Overall, this concentrates summarizing current research status technological advancement juxtaposes merits demerits various sources anodes, providing comprehensive assessment forward-looking perspective their future development.

Language: Английский

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