Advancements in lithium solid polymer batteries: surface modification, in-situ/operando characterization, and simulation methodologies DOI Open Access
Shanshan Guo, Xinpei Li, Zihao Zhang

et al.

Energy Materials, Journal Year: 2025, Volume and Issue: 5(4)

Published: Jan. 24, 2025

The interest in lithium solid-state batteries (LSSBs) is rapidly escalating, driven by their impressive energy density and safety features. However, they face crucial challenges, including limited ionic conductivity, high interfacial resistance, unwanted side reactions. Intensive research has been conducted on polymer electrolytes positioned between the anode cathode, aiming to replace traditional liquid electrolytes. To alleviate resistance mitigate adverse reactions electrodes electrolytes, modification strategy proven enhance of LSSBs. This design process grounded precise elaborate theories, with in-situ /operando techniques simulation methods facilitating interpretation validation structure-property relationships simplifying them. review first outlines recent advancements surface strategies specifically tailored for solid Furthermore, it also provides an overview innovative characterizations featured publications, which can gain a more accurate understanding processes that occur within materials, devices, or chemical as are happening. Lastly, discusses existing challenges presents forward-looking perspective future next-generation

Language: Английский

Advancements in lithium solid polymer batteries: surface modification, in-situ/operando characterization, and simulation methodologies DOI Open Access
Shanshan Guo, Xinpei Li, Zihao Zhang

et al.

Energy Materials, Journal Year: 2025, Volume and Issue: 5(4)

Published: Jan. 24, 2025

The interest in lithium solid-state batteries (LSSBs) is rapidly escalating, driven by their impressive energy density and safety features. However, they face crucial challenges, including limited ionic conductivity, high interfacial resistance, unwanted side reactions. Intensive research has been conducted on polymer electrolytes positioned between the anode cathode, aiming to replace traditional liquid electrolytes. To alleviate resistance mitigate adverse reactions electrodes electrolytes, modification strategy proven enhance of LSSBs. This design process grounded precise elaborate theories, with in-situ /operando techniques simulation methods facilitating interpretation validation structure-property relationships simplifying them. review first outlines recent advancements surface strategies specifically tailored for solid Furthermore, it also provides an overview innovative characterizations featured publications, which can gain a more accurate understanding processes that occur within materials, devices, or chemical as are happening. Lastly, discusses existing challenges presents forward-looking perspective future next-generation

Language: Английский

Citations

0