The pathway for improving lithium-ion batteries ' energy density strongly depends on finding materials with enhanced performance. Although great efforts have been done, on the anode-side, graphite is still the best choice. In the last decade, silicon elements are attracting growing attention as anode since their use can theoretically increase specific capacity of the negative electrode side. However, as the electrochemical mechanism involves the alligation of a large amount of Li, the silicon electrode experiences huge volume changes (more than 300 % of its initial volume), leading to fractures and pulverizations of the electrode. Herein, we propose for the first time using Molybdenum and Chromium Carbides as additive to stabilize graphite/silicon composites. Spark plasma sintering technology is used to sinter the electrode powders. We demonstrated that the presence of molybdenum or chromium carbides promotes the performance of C/Si electrodes, improving the cycling stability compared to pristine graphite/silicon electrodes.Graphite-silicon composites for batteries: Molybdenum and Chromium Carbides are used as additives to stabilize graphite/silicon composites. Spark plasma sintering technology is used to sinter the electrode powders. The presence of molybdenum or chromium carbides promotes the performance of C/Si electrodes in lithium cells, improving the cycling stability compared to pristine graphite/silicon compounds.image
Metal Carbide Additives in Graphite‐Silicon Composites for Lithium‐Ion Batteries / Piñuela‐noval, Juan; Fernández‐gonzález, Daniel; Brutti, Sergio; Suárez, Marta; Mazzei, Franco; Navarra, MARIA ASSUNTA; Felipe Verdeja, Luis; Fernández, Adolfo; Agostini, Marco. - In: CHEMELECTROCHEM. - ISSN 2196-0216. - 10:21(2023). [10.1002/celc.202300339]
Metal Carbide Additives in Graphite‐Silicon Composites for Lithium‐Ion Batteries
Sergio Brutti;Franco Mazzei;Maria Assunta Navarra;Marco Agostini
2023
Abstract
The pathway for improving lithium-ion batteries ' energy density strongly depends on finding materials with enhanced performance. Although great efforts have been done, on the anode-side, graphite is still the best choice. In the last decade, silicon elements are attracting growing attention as anode since their use can theoretically increase specific capacity of the negative electrode side. However, as the electrochemical mechanism involves the alligation of a large amount of Li, the silicon electrode experiences huge volume changes (more than 300 % of its initial volume), leading to fractures and pulverizations of the electrode. Herein, we propose for the first time using Molybdenum and Chromium Carbides as additive to stabilize graphite/silicon composites. Spark plasma sintering technology is used to sinter the electrode powders. We demonstrated that the presence of molybdenum or chromium carbides promotes the performance of C/Si electrodes, improving the cycling stability compared to pristine graphite/silicon electrodes.Graphite-silicon composites for batteries: Molybdenum and Chromium Carbides are used as additives to stabilize graphite/silicon composites. Spark plasma sintering technology is used to sinter the electrode powders. The presence of molybdenum or chromium carbides promotes the performance of C/Si electrodes in lithium cells, improving the cycling stability compared to pristine graphite/silicon compounds.imageI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
