Designing with Li2S in Lithium–Sulfur Batteries: From Fundamental Chemistry to Practical Architectures
Hyeona Park, Arcangelo Celeste, Shulin Wang, Chaiwon Lee, Yul Yang, Kaizhao Wang, Aleksandar Matic, Sergio Brutti, Shivam Kansara, Shizhao Xiong, Marco Agostini, Jang‐Yeon Hwang

TL;DR
This paper explores how Li2S can be used to design better lithium-sulfur batteries with higher energy and easier manufacturing.
Contribution
The paper introduces multiscale strategies for Li2S activation and integration into anode-free battery designs.
Findings
Li2S-based cathodes enable lithium-free and anode-free battery architectures.
Hierarchical carbon frameworks and electrolyte co-design improve Li2S performance.
Redox mediators and machine learning aid in scaling Li2S battery technology.
Abstract
Lithium‐sulfur (Li‐S) batteries deliver gravimetric energy densities considerably higher than those of conventional lithium‐ion systems while relying on low‐cost, earth‐abundant materials. Despite decades of progress, their commercialization remains hindered by intrinsic challenges such as the insulating nature of sulfur and lithium sulfide (Li2S), formation and dissolution of soluble polysulfides, and instability of lithium‐metal anodes. Among these, the use of Li2S as a pre‐lithiated cathode has redefined the landscape of Li─S chemistry by offering a pathway toward lithium‐free and anode‐free architectures that are compatible with the existing manufacturing infrastructure. This perspective revisits the Li2S electrochemistry from a conceptual and design standpoint. The perspective emphasizes multiscale strategies for atomic‐level catalytic engineering, mesoscale electrode…
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Taxonomy
TopicsAdvanced Battery Materials and Technologies · Advancements in Battery Materials · Inorganic Chemistry and Materials
