Add to ORKGWe reveal the general mechanisms of partial reduction of multivalent complex cations in conditions specific for the bulk solvent and in the vicinity of the electrified metal electrode surface and disclose the factors affecting the reductive stability of electrolytes for multivalent electrochemistry. Using a combination of ab initio techniques, we clarify the relation between the reductive stability of contact-ion pairs comprising a multivalent cation and a complex anion, their solvation structures, solvent dynamics, and the electrode overpotential. We found that for ion pairs with multiple configurations of the complex anion and the Mg cation whose available orbitals are partially delocalized over the molecular complex and have antibonding ...
MgTFSI2 is the only ether-soluble "simple" magnesium salt. The poor electrochemical perfor...
Mg–S batteries are attractive for next-generation energy storage because of their high theoretical c...
Most of the battery electrolyte candidates for multivalent-ion systems (e.g. Mg, Ca) present interes...
We reveal the general mechanisms of partial reduction of multivalent complex cations in conditions s...
In this work we uncover a novel effect between concentration dependent ion pair formation and anion ...
Detailed speciation of electrolytes as a function of chemical system and concentration provides the ...
In this work we uncover a novel effect between concentration dependent ion pair formation and anion ...
Electrochemistry is necessarily a science of interfacial processes, and understanding electrode/elec...
Conventional electrolytes made by mixing simple Mg2+ salts and aprotic solvents, analogous to those ...
Rational design of novel electrolytes with enhanced functionality requires fundamental molecular-lev...
We investigated the solvation structure of Mg ions in a diglyme (G2)-based electrolyte solution for ...
International audienceThe electrochemical degradation of two solvent-based electrolytes for Mg-metal...
The performance of rechargeable magnesium batteries is strongly dependent on the choice of electroly...
Mg(N(SO<sub>2</sub>CF<sub>3</sub>)<sub>2</sub>)<sub>2</sub> (MgTFSI<sub>2</sub>) solutions with di...
In this work, we use computational design to examine 15 new electrolyte salt anions by performing ch...
MgTFSI2 is the only ether-soluble "simple" magnesium salt. The poor electrochemical perfor...
Mg–S batteries are attractive for next-generation energy storage because of their high theoretical c...
Most of the battery electrolyte candidates for multivalent-ion systems (e.g. Mg, Ca) present interes...
We reveal the general mechanisms of partial reduction of multivalent complex cations in conditions s...
In this work we uncover a novel effect between concentration dependent ion pair formation and anion ...
Detailed speciation of electrolytes as a function of chemical system and concentration provides the ...
In this work we uncover a novel effect between concentration dependent ion pair formation and anion ...
Electrochemistry is necessarily a science of interfacial processes, and understanding electrode/elec...
Conventional electrolytes made by mixing simple Mg2+ salts and aprotic solvents, analogous to those ...
Rational design of novel electrolytes with enhanced functionality requires fundamental molecular-lev...
We investigated the solvation structure of Mg ions in a diglyme (G2)-based electrolyte solution for ...
International audienceThe electrochemical degradation of two solvent-based electrolytes for Mg-metal...
The performance of rechargeable magnesium batteries is strongly dependent on the choice of electroly...
Mg(N(SO<sub>2</sub>CF<sub>3</sub>)<sub>2</sub>)<sub>2</sub> (MgTFSI<sub>2</sub>) solutions with di...
In this work, we use computational design to examine 15 new electrolyte salt anions by performing ch...
MgTFSI2 is the only ether-soluble "simple" magnesium salt. The poor electrochemical perfor...
Mg–S batteries are attractive for next-generation energy storage because of their high theoretical c...
Most of the battery electrolyte candidates for multivalent-ion systems (e.g. Mg, Ca) present interes...