Silicon-based anodes, composed of micrometric Si, graphite (MAG), LiI-Li3PS4 solid electrolyte (LPSI), and carbon nanofiber (CNF), which can be prepared by straightforward manual grinding, are proposed in this study. The relation between composition and performance of the anodes is investigated through the mixture design approach, which allows to discriminate the effect of each component and also the combined effect of the components on the end-performance. By increasing the fraction of LSPI in the anode, the capacity of the electrode is improved, and the best performance is obtained when the ratio of Si:MAG:LPSI is 15:15:70. This composite integrated with 5 wt% CNF exhibits the capacity above 1200 mAh g-1 throughout 50 cycles in bulk-type all-solid-state battery with LPSI as the electrolyte. From scanning electron microscope (SEM) analysis, it is confirmed that the presence of LPSI suppresses the aggregation of Si and improves the ratio of Si available for lithiation/delithiation.
Silicon-based composite anodes for all-solid-state lithium-ion batteries conceived by a mixture design approach / Branchi, Mario; Maresca, Giovanna; Tsurumaki, Akiko; Suzuki, Naoki; Croce, Fausto; Panero, Stefania; Voje, Jorunn; Aihara, Yuichi; Navarra, MARIA ASSUNTA. - In: CHEMSUSCHEM. - ISSN 1864-5631. - 16:(2022), pp. 1-8. [10.1002/cssc.202202235]
Silicon-based composite anodes for all-solid-state lithium-ion batteries conceived by a mixture design approach
Mario Branchi;Giovanna Maresca;Akiko Tsurumaki
;Fausto Croce;Stefania Panero;Maria Assunta Navarra
2022
Abstract
Silicon-based anodes, composed of micrometric Si, graphite (MAG), LiI-Li3PS4 solid electrolyte (LPSI), and carbon nanofiber (CNF), which can be prepared by straightforward manual grinding, are proposed in this study. The relation between composition and performance of the anodes is investigated through the mixture design approach, which allows to discriminate the effect of each component and also the combined effect of the components on the end-performance. By increasing the fraction of LSPI in the anode, the capacity of the electrode is improved, and the best performance is obtained when the ratio of Si:MAG:LPSI is 15:15:70. This composite integrated with 5 wt% CNF exhibits the capacity above 1200 mAh g-1 throughout 50 cycles in bulk-type all-solid-state battery with LPSI as the electrolyte. From scanning electron microscope (SEM) analysis, it is confirmed that the presence of LPSI suppresses the aggregation of Si and improves the ratio of Si available for lithiation/delithiation.| File | Dimensione | Formato | |
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