Redesigning Solvation Structure toward Passivation-Free Magnesium Metal Batteries

Long, Juncai; Liu, Yi; He, Ze; Tan, Shuangshuang; Xiong, Fangyu; Xu, Hantao; Wang, Weixiao; Zhang, Ge; Yang, Zhongzhuo; An, Qinyou

doi:10.1021/acsnano.4c03968

ACS Nano

2024

DOI: 10.1021/acsnano.4c03968

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Redesigning Solvation Structure toward Passivation-Free Magnesium Metal Batteries

Juncai Long,

Yi Liu,

Ze He

et al.

Abstract: Simple magnesium (Mg) salt solutions are widely considered as promising electrolytes for next-generation rechargeable Mg metal batteries (RMBs) owing to the direct Mg2+ storage mechanism. However, the passivation layer formed on Mg metal anodes in these electrolytes is considered the key challenge that limits its applicability. Numerous complex halogenide additives have been introduced to etch away the passivation layer, nevertheless, at the expense of the electrolyte’s anodic stability and cathodes’ cyclabili… Show more

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Cited by 4 publications

References 46 publications

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Achieving reversible Mg chemistry by tunningelectric double layer structure with highly-fluorinated asymmetric magnesium salt

Zhang,

He,

et al. 2025

Energy Storage Materials

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Achieving reversible Mg chemistry by tunningelectric double layer structure with highly-fluorinated asymmetric magnesium salt

Zhang,

He,

et al. 2025

Energy Storage Materials

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The role of Li⋯F interactions in lithium and heterobimetallic lithium–magnesium complexes of the hexafluoroisopropoxide anion

Terzopoulos,

Marinho Fonseca,

Bond

et al. 2025

Polyhedron

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Deeping Insight of Weakly Solvating Halogen-Free Electrolyte in Enhancing the Electrochemical Performance of Magnesium–Sulfur Batteries

Moselhy,

Mostafa,

El-Dek

et al. 2024

Langmuir

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Magnesium−sulfur (Mg−S) batteries offer a promising energy storage system due to their high theoretical capacity. However, the sluggish conversion reaction kinetics and the shuttle effect of magnesium polysulfides hinder their practical application. The high charge density of the divalent Mg 2+ cations leads to slow kinetics caused by significant electrostatic interactions between Mg 2+ and its surrounding solvent and anion species. This study probes the impact of incorporating the weakly coordinating solvent tetrahydrofuran (THF) to regulate the solvation sheath's interfacial chemistry and enhance the mobility of the Mg 2+ ions in a halogen-free electrolyte (HFE) based on Mg(NO 3 ) 2 . An effective anode/electrolyte interface is engineered to protect the Mg anode from passivation and reduce polysulfides to shuttle. The HFE−THF electrolyte exhibits relatively goodelectrochemical performance, high ionic conductivity, and a low overpotential for Mg plating and stripping. Mg−S cells with a HFE−THF electrolyte achieve low initial specific capacities of approximately 580 mAh g −1 , high and fluctuated Coulombic efficiency at a current density of 20 μA cm −2 , and extended cycle life compared with the Mg−S cells with a blank HFE.

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Redesigning Solvation Structure toward Passivation-Free Magnesium Metal Batteries

Cited by 4 publications

References 46 publications

Achieving reversible Mg chemistry by tunningelectric double layer structure with highly-fluorinated asymmetric magnesium salt

Achieving reversible Mg chemistry by tunningelectric double layer structure with highly-fluorinated asymmetric magnesium salt

The role of Li⋯F interactions in lithium and heterobimetallic lithium–magnesium complexes of the hexafluoroisopropoxide anion

Deeping Insight of Weakly Solvating Halogen-Free Electrolyte in Enhancing the Electrochemical Performance of Magnesium–Sulfur Batteries

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