Add to ORKGIn this work, we use computational design to examine 15 new electrolyte salt anions by performing chemical variations and mutations on the bis(trifluoromethane)sulfonamide (TFSI) anion. On the basis of our calculations, we propose two new anions as potential candidates for magnesium energy-storage systems, which are evolved from TFSI with the substitution of sulfur atoms in TFSI and the modification of functional groups. The applicability of these new anion salts is examined through comprehensive calculations using both first-principles as well as benchmarked classical molecular dynamics. We elucidate the important properties of these anions, including the electrochemical stability window, chemical decomposition, preferred solvation structu...
The reduction in the usage of fossil fuels can be achieved by focusing on the development of high-en...
Rechargeable magnesium–sulfur (Mg-S) batteries are emerging as a promising candidate for next-genera...
Details of the lithium (Li+), sodium (Na+), magnesium (Mg2+), and zinc (Zn2+) cation coordination an...
In this work we uncover a novel effect between concentration dependent ion pair formation and anion ...
In this work we uncover a novel effect between concentration dependent ion pair formation and anion ...
Details of the lithium (Li+), sodium (Na+), magnesium (Mg2+), and zinc (Zn2+) cation coordination an...
DFT calculations were conducted to provide insightful and unprecedented thermodynamic insights on te...
Rational design of novel electrolytes with enhanced functionality requires fundamental molecular-lev...
Non-aqueous Mg-ion batteries offer a promising way to overcome safety, costs, and energy density lim...
Most of the battery electrolyte candidates for multivalent-ion systems (e.g. Mg, Ca) present interes...
The advancement of battery technologies has gone "beyond lithium" batteries to involve other ions. M...
Electrolytes with improved thermal and oxidative stability must be developed to achieve greater powe...
We reveal the general mechanisms of partial reduction of multivalent complex cations in conditions s...
Magnesium batteries are currently attracting a lot of interest as a next generation battery technolo...
Detailed speciation of electrolytes as a function of chemical system and concentration provides the ...
The reduction in the usage of fossil fuels can be achieved by focusing on the development of high-en...
Rechargeable magnesium–sulfur (Mg-S) batteries are emerging as a promising candidate for next-genera...
Details of the lithium (Li+), sodium (Na+), magnesium (Mg2+), and zinc (Zn2+) cation coordination an...
In this work we uncover a novel effect between concentration dependent ion pair formation and anion ...
In this work we uncover a novel effect between concentration dependent ion pair formation and anion ...
Details of the lithium (Li+), sodium (Na+), magnesium (Mg2+), and zinc (Zn2+) cation coordination an...
DFT calculations were conducted to provide insightful and unprecedented thermodynamic insights on te...
Rational design of novel electrolytes with enhanced functionality requires fundamental molecular-lev...
Non-aqueous Mg-ion batteries offer a promising way to overcome safety, costs, and energy density lim...
Most of the battery electrolyte candidates for multivalent-ion systems (e.g. Mg, Ca) present interes...
The advancement of battery technologies has gone "beyond lithium" batteries to involve other ions. M...
Electrolytes with improved thermal and oxidative stability must be developed to achieve greater powe...
We reveal the general mechanisms of partial reduction of multivalent complex cations in conditions s...
Magnesium batteries are currently attracting a lot of interest as a next generation battery technolo...
Detailed speciation of electrolytes as a function of chemical system and concentration provides the ...
The reduction in the usage of fossil fuels can be achieved by focusing on the development of high-en...
Rechargeable magnesium–sulfur (Mg-S) batteries are emerging as a promising candidate for next-genera...
Details of the lithium (Li+), sodium (Na+), magnesium (Mg2+), and zinc (Zn2+) cation coordination an...