Front Cover: Tailoring Electrolyte Distributions to Enable High‐performance Li₃PS₄‐based All‐solid‐state Batteries under Different Operating Temperatures (Chem. Asian J. 12/2023)

“…[1][2][3] Lithium-ion batteries have gained widespread application in energy storage stations, automobiles, smartphones, and various other domains due to their numerous advantages. [4][5] However, traditional lithium-ion batteries confront challenges related to safety and energy density limitations that impede their ability to meet the evolving Li 6 PS 5 Cl, and its substitutions exhibit an approximate room temperature lithium-ion conductivity of 2 mS cm −1 , which can be increased by modifications, such as Li 5.5 PS 4.5 Cl 1.5 reaching around 10 mS cm −1 . [34] Argyrodites offer the advantage of being potentially cost-efficient to produce compared to LGPS, utilizing precursors like Li 2 S, P 2 S 5 , and LiCl.…”

“…[ 1–3 ] Lithium‐ion batteries have gained widespread application in energy storage stations, automobiles, smartphones, and various other domains due to their numerous advantages. [ 4–5 ] However, traditional lithium‐ion batteries confront challenges related to safety and energy density limitations that impede their ability to meet the evolving needs of society. [ 6–8 ] Consequently, solid‐state lithium‐ion batteries have emerged as a focal point in current research endeavors owing to their promise of enhanced safety and high energy density.…”

SnF₂‐Induced Multifunctional Interface‐Stabilized Li_5.5PS_4.5Cl_1.5‐Based All‐Solid‐State Lithium Metal Batteries

“…[1][2][3] Lithium-ion batteries have gained widespread application in energy storage stations, automobiles, smartphones, and various other domains due to their numerous advantages. [4][5] However, traditional lithium-ion batteries confront challenges related to safety and energy density limitations that impede their ability to meet the evolving Li 6 PS 5 Cl, and its substitutions exhibit an approximate room temperature lithium-ion conductivity of 2 mS cm −1 , which can be increased by modifications, such as Li 5.5 PS 4.5 Cl 1.5 reaching around 10 mS cm −1 . [34] Argyrodites offer the advantage of being potentially cost-efficient to produce compared to LGPS, utilizing precursors like Li 2 S, P 2 S 5 , and LiCl.…”

“…[ 1–3 ] Lithium‐ion batteries have gained widespread application in energy storage stations, automobiles, smartphones, and various other domains due to their numerous advantages. [ 4–5 ] However, traditional lithium‐ion batteries confront challenges related to safety and energy density limitations that impede their ability to meet the evolving needs of society. [ 6–8 ] Consequently, solid‐state lithium‐ion batteries have emerged as a focal point in current research endeavors owing to their promise of enhanced safety and high energy density.…”

SnF₂‐Induced Multifunctional Interface‐Stabilized Li_5.5PS_4.5Cl_1.5‐Based All‐Solid‐State Lithium Metal Batteries