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Regulation of Li<sub>2</sub>S Deposition and Dissolution to Achieve an Efficient Bidirectional Lithium–Sulfur Battery

Dan You, Wenhao Yang, Yongshun Liang, Chunman Yang, Yiwei Yu, Ziyi Zhu, Xue Li, Yiyong Zhang, Yingjie Zhang

2025Advanced Functional Materials29 citationsDOIOpen Access PDF

Abstract

Abstract Promoting the sulfur reduction reaction (SRR) and sulfur evolution reaction (SER) kinetics is crucial for practical lithium–sulfur batteries. However, the electrode will be passivated by insulated Li 2 S if blindly accelerated the SRR kinetics, meanwhile, the high activation energy of Li 2 S will lead to premature the oxidation of Li 2 S (SER), achieving limited catalyst. Here, a nano‐nickel nitrogen‐doped carbon gel material (CG/Ni) induces the instantaneous nucleation, further endows Li 2 S fast ion/electron transfer, resulting porous 3D growth instead single lateral growth. Therefore, CG/Ni material avoids being passivated, accelerating the SRR kinetics. Meanwhile, CG/Ni decreases the delithiation barrier, thus, facilitating the Li 2 S dissociation. Both experiments and theory calculation prove that CG/Ni achieves efficient bidirectional catalysis. Consequently, CG/Ni cathode delivers a low‐capacity decay ratio of 0.047% per cycle for 900 cycles at 5 C. This work unlocks a bidirectional catalyst and provide new insight for high‐efficiency lithium–sulfur batteries.

Topics & Concepts

Lithium–sulfur batteryMaterials scienceSulfurDissolutionDeposition (geology)Lithium (medication)Battery (electricity)Inorganic chemistryChemical engineeringNanotechnologyMetallurgyPower (physics)ChemistryThermodynamicsMedicineEndocrinologyPhysicsBiologyEngineeringSedimentPaleontologyAdvanced Battery Materials and TechnologiesAdvanced battery technologies researchAdvancements in Battery Materials
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