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Título : Role of Crystalline Si and SiC Species in the Performance of Reduced Hybrid C/Si Gels as Anodes for Lithium-Ion Batteries
Autor : Flores-López, Samantha L.
Lobato, Belén
Rey-Raap, Natalia
Cameán, Ignacio
García, Ana B.
Arenillas, Ana
Palabras clave : Lithium ion batterries
Silicon compounds
C/Si hybrid gels
Fecha de publicación : 23-ene-2023
Editorial : MDPI
Citación : Flores-López, S.L.; Lobato, B.; Rey-Raap, N.; Cameán, I.; García, A.B.; Arenillas, A. Role of Crystalline Si and SiC Species in the Performance of Reduced Hybrid C/Si Gels as Anodes for Lithium-Ion Batteries. Nanomaterials 2023, 13, 458.
Citación : 13;458
Resumen : In recent years, the research around lithium-ion batteries (LIBs) to improve their lifetime, efficiency and energy density has led to the use of silicon-based materials as a promising anode alternative to graphite. Specifically, crystalline silicon (cSi) and silicon carbide (SiC) obtained from deposition or reduction processes (e.g., magnesiothermal reduction) stand out for their electrochemical properties. However, the synthesis routes proposed until now have limitations that make them difficult to afford or operate on a large scale. For this reason, in this work carbon-silicon (C-Si) hybrid materials synthesized through an efficient route, are evaluated as the potential precursor for the obtention of both cSi and SiC species in a single material. The feasibility and influence of the magnesiothermal reduction process were evaluated, and materials with 10 wt.% of reduced Si and 10-26 wt.% of SiC were obtained. Both species show a role in the improvement of the performance of silicon-based materials as anodes in lithium-ion batteries. In comparison with materials obtained by reduction of silica gels and composites, the reduced C-Si hybrid gels stand out thanks to the homogeneous distribution and stability of the species developed.
URI : https://ria.asturias.es/RIA/handle/123456789/14628
Aparece en las colecciones: Innovación tecnológica

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