2023
DOI: 10.1039/d3ee00161j
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Prolonging the cycling lifetime of lithium metal batteries with a monolithic and inorganic-rich solid electrolyte interphase

Jinlin Yang,
Menghao Li,
Zejun Sun
et al.

Abstract: An efficient solid electrolyte interphase (SEI) on lithium (Li) metal anode is crucial to suppressing Li dendrite. Herein, a methoxide electrolyte additive, i.e., potassium methoxide, is revealed to induce preferential...

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Cited by 33 publications
(14 citation statements)
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“…The uncontrollable formation of this SEI appears to lower the Li + diffusion kinetics and creates uneven Li deposition, 14 which will then decrease the coulombic efficiency and cycle life. 15 Thus, it is critically essential to engineer a stable and controllable SEI layer for regulating the Li stripping/deposition behaviors to achieve high-performance Li metal batteries.…”
Section: Introductionmentioning
confidence: 99%
“…The uncontrollable formation of this SEI appears to lower the Li + diffusion kinetics and creates uneven Li deposition, 14 which will then decrease the coulombic efficiency and cycle life. 15 Thus, it is critically essential to engineer a stable and controllable SEI layer for regulating the Li stripping/deposition behaviors to achieve high-performance Li metal batteries.…”
Section: Introductionmentioning
confidence: 99%
“…10 Compared with an organic-rich SEI layer, an SEI with abundant inorganic Li compounds (such as LiF, Li 2 CO 3 , and Li 2 O) displays suitable Li + ionic conductivity, lithiophobicity, and high interfacial energy, which can promote Li transverse diffusion along the SEI/Li interface. 11,12 In addition, the inorganic matter with higher Young's modulus also has strong mechanical strength to better inhibit dendritic growth. 13 Therefore, a high-quality SEI is essential for exceptional Li metal batteries.…”
Section: Introductionmentioning
confidence: 99%
“…22−24 These electrolytes can mainly induce a decomposition of anions to form beneficial SEI on the basis of a change in a solvation structure. 25,26 The anion-derived SEI includes abundant inorganic components that exhibit superior chemo-mechanical stability and ionic conductivity compared to organic components produced from the decomposition of solvent. 27−29 Therefore, the coutilization of those two approaches can be considered as an efficient electrolyte engineering to form a desired SEI with enhanced ionic conductivity and mechanical stability.…”
Section: Introductionmentioning
confidence: 99%
“…In particular, using additives is one of the most effective and economic methods for the improvement of performance because they modify the electrode/electrolyte interphase with only a relatively small amount. , It has been known that additives can form desired inorganic components (LiF, Li 3 N, etc.) within the SEI by the preferential reduction based on their electronic structures. , These reduction products are ideally characterized by high ionic conductivity, facilitating Li ion transport across the SEI, and high mechanical stability to accommodate the expansion of the electrode. − Recently, another approach in electrolyte engineering has received attention: increasing salt-to-solvent ratio, such as high concentration electrolytes (HCEs) and localized high-concentration electrolytes (LHCEs). − These electrolytes can mainly induce a decomposition of anions to form beneficial SEI on the basis of a change in a solvation structure. , The anion-derived SEI includes abundant inorganic components that exhibit superior chemo-mechanical stability and ionic conductivity compared to organic components produced from the decomposition of solvent. − Therefore, the coutilization of those two approaches can be considered as an efficient electrolyte engineering to form a desired SEI with enhanced ionic conductivity and mechanical stability. However, it is poorly understood how the complicated electrolyte composition affects the formation process of SEI and the resulting structures of it.…”
Section: Introductionmentioning
confidence: 99%
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