Although water is considered detrimental for Li-ion battery technology, a 1% w/w amount of water in a melt of LiCl in ionic liquid 1-butyl-3-methylimidazolium chloride promotes the reduction of lithium into a LiAl intermetallic along with water oxidation to O2 gas. The electrodeposition of an intermetallic layer of several micrometers thickness is demonstrated by combining complementary techniques, such as galvanostatics, X-ray diffraction, electron energy-loss spectroscopy, mass spectrometry, and 1H nuclear magnetic resonance. The concentration of water in the ionic liquid is found to be a critical feature, as no Li is deposited when ionic liquid is dried. Our findings highlight an innovative and simple method to produce a LiAl intermetallic by using water and lithium chloride as chemical reagents.
Water-Assisted Electrosynthesis of a Lithium−Aluminum Intermetallic from a Lithium Chloride-Ionic Liquid Melt / Bernini, Fabrizio; Bertoni, Giovanni; Mucci, Adele; Marchetti, Andrea; Malferrari, Daniele; Gazzadi, gian carlo; Ricci, Marco; Marras, Sergio; Proietti Zaccaria, Remo; Rotunno, Enzo; Nicolini, Alessio; Yamini, Nassima; Cornia, Andrea; Borsari, Marco; Paolella, Andrea. - In: ACS ELECTROCHEMISTRY. - ISSN 2997-0571. - (2025), pp. 1-8. [10.1021/acselectrochem.4c00134]
Water-Assisted Electrosynthesis of a Lithium−Aluminum Intermetallic from a Lithium Chloride-Ionic Liquid Melt
Fabrizio Bernini;Giovanni Bertoni;Adele Mucci;Andrea Marchetti;Daniele Malferrari;Gian Carlo Gazzadi;Alessio Nicolini;Nassima Yamini;Andrea Cornia;Marco Borsari;Andrea Paolella
2025
Abstract
Although water is considered detrimental for Li-ion battery technology, a 1% w/w amount of water in a melt of LiCl in ionic liquid 1-butyl-3-methylimidazolium chloride promotes the reduction of lithium into a LiAl intermetallic along with water oxidation to O2 gas. The electrodeposition of an intermetallic layer of several micrometers thickness is demonstrated by combining complementary techniques, such as galvanostatics, X-ray diffraction, electron energy-loss spectroscopy, mass spectrometry, and 1H nuclear magnetic resonance. The concentration of water in the ionic liquid is found to be a critical feature, as no Li is deposited when ionic liquid is dried. Our findings highlight an innovative and simple method to produce a LiAl intermetallic by using water and lithium chloride as chemical reagents.
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