All-solid-state (ASS) batteries have been recognized as a next-generation energy storage system. The same anode materials adopted in liquid-electrolyte batteries are generally tested in ASS batteries, such as lithium metal, graphite, Sn, and Si. However, because of the solid of the electrolyte, the control of electrode-electrolyte interphases becomes crucial for high-performance and stable ASS batteries. In this chapter, issues remaining in the state-of-the-art ASS batteries are summarized and strategies for the anode development are discussed from viewpoint of both materials engineering and system optimization.
Lithium Batteries – Lithium Secondary Batteries – Lithium All-Solid State Battery | Negative Electrodes / Tsurumaki, Akiko; Di Donato, Graziano; Navarra, Maria Assunta. - (2024), pp. 578-587. [10.1016/b978-0-323-96022-9.00222-x].
Lithium Batteries – Lithium Secondary Batteries – Lithium All-Solid State Battery | Negative Electrodes
Tsurumaki, Akiko;Di Donato, Graziano;Navarra, Maria Assunta
2024
Abstract
All-solid-state (ASS) batteries have been recognized as a next-generation energy storage system. The same anode materials adopted in liquid-electrolyte batteries are generally tested in ASS batteries, such as lithium metal, graphite, Sn, and Si. However, because of the solid of the electrolyte, the control of electrode-electrolyte interphases becomes crucial for high-performance and stable ASS batteries. In this chapter, issues remaining in the state-of-the-art ASS batteries are summarized and strategies for the anode development are discussed from viewpoint of both materials engineering and system optimization.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
