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Influence of salt concentration on the electrochemical performance of magnesium hexafluoroisopropoxy aluminate electrolyte
ID Marojević, Andrijana (Author), ID Pavčnik, Tjaša (Author), ID Lužanin, Olivera (Author), ID Grdadolnik, Jože (Author), ID Pirnat, Klemen (Author), ID Ponrouch, Alexandre (Author), ID Dominko, Robert (Author), ID Bitenc, Jan (Author)

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Abstract
One of the challenges in the development of Mg batteries is the lack of Mg electrolytes with good compatibility with both the Mg metal anode and cathode materials. In recent years, Mg salts based on weakly coordinating anions have emerged as promising Mg electrolytes. In this work, we systematically investigate the effects of salt concentration on the physicochemical properties, salt–solvent interactions, and electrochemical performance of the Mg[Al(hfip)$_4$]$_2$/G2 electrolyte. Infrared (IR) and Raman spectroscopy are used to study the changes in the electrolyte speciation across different concentrations, indicating a decreased amount of free glyme solvent with higher salt concentration. Mg plating/stripping of selected electrolytes is evaluated through three different testing protocols (conventional cycling, macrocycling, and cycling with added open-circuit voltage (OCV) rests) and compatibility with different cathode materials such as Chevrel phase, sulfur, and various organic redox-active compounds. In the electrochemical tests, more concentrated electrolytes demonstrated improved cathode cycling efficiency and more stable Mg plating/stripping, making an argument for Mg electrolytes with higher salt concentration. However, higher salt concentrations can increase the cost of Mg electrolytes. Further Mg electrolyte optimization should focus on adjusting electrolyte composition to specific electrode materials and other cell components, while maintaining a reasonable cost.

Language:English
Keywords:cathode compatibility, different metal plating/stripping procedures, electrolyte speciation, Mg electrolyte, physicochemical properties
Work type:Article
Typology:1.01 - Original Scientific Article
Organization:FKKT - Faculty of Chemistry and Chemical Technology
Publication status:Published
Publication version:Version of Record
Year:2026
Number of pages:11 str.
Numbering:Vol. 9, iss. 1, art. e202500497
PID:20.500.12556/RUL-178298 This link opens in a new window
UDC:544.5/.6
ISSN on article:2566-6223
DOI:10.1002/batt.202500497 This link opens in a new window
COBISS.SI-ID:250422787 This link opens in a new window
Publication date in RUL:22.01.2026
Views:300
Downloads:193
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Record is a part of a journal

Title:Batteries & supercaps
Publisher:Wiley, Chemistry Europe
ISSN:2566-6223
COBISS.SI-ID:30750979 This link opens in a new window

Licences

License:CC BY 4.0, Creative Commons Attribution 4.0 International
Link:http://creativecommons.org/licenses/by/4.0/
Description:This is the standard Creative Commons license that gives others maximum freedom to do what they want with the work as long as they credit the author.

Secondary language

Language:Slovenian
Keywords:elektrokemija, magnezijeve baterije, shranjevanje energije, elektroliti

Projects

Funder:ARIS - Slovenian Research and Innovation Agency
Project number:P2-0423
Name:Sodobni akumulatorji kot podpora zelenemu prehodu in elektromobilnosti

Funder:ARIS - Slovenian Research and Innovation Agency
Project number:N2-0279
Name:Aditivi za visokoenergijske bivalentne organokovinske akumulatorje (ADREBO)

Funder:ARIS - Slovenian Research and Innovation Agency
Funding programme:Scientists4Future Slovenia

Funder:EC - European Commission
Funding programme:MSCA-COFUND-SE

Funder:EC - European Commission
Funding programme:HE
Project number:101089281
Name:Multi-metal anode: towards safe and energy dense batteries
Acronym:MULTIMETALBAT

Funder:Spain, Agencia Estatal de Investigación
Funding programme:Severo Ochoa Programme for Centres of Excellence in R&D
Project number:CEX2023-01263

Funder:MIZS - Ministry of Education, Science and Sport
Funding programme:M.Era-net
Acronym:InsBioration

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