Add to ORKGIodide-based redox mediation in Li–O2 batteries is regarded as a promising system due to its relatively high round-trip efficiency, compared to alternative systems. Here we explore the role of electrolyte composition in the solvation of I−, which has been shown to be critical for the efficient operation of this redox mediator, using a molecular dynamics approach. A combinatorial exploration of I− and H2O concentrations was performed, for a fixed concentration of Li+, across a series of glymes, with increasing chain length (mono- to tetraglyme). The resulting radial distribution functions show that shorter glymes allow for a closer packing of the I− redox mediator. Furthermore, increasing the I− concentration also reduces the solvation of Li...
Li-O₂ batteries offer higher gravimetric energy density than commercial Li-ion batteries. Despite th...
Increasing utilization of renewable, but intermittent energy sources like wind and solar necessitate...
The activity of lithium ions in electrolytes depends on their solvation structures. However, the und...
The building of safe and high energy-density lithium batteries is strongly dependent on the electroc...
The use of LiI as redox mediator for the charge reaction in nonaqueous Li/O<sub>2</sub> cells has be...
© 2021 American Chemical Society.Water-in-salt electrolytes (WiSEs) are a safer alternative to conve...
Molecular dynamics (MD) simulations, density functional theory (DFT) calculations, and 1H NMR spectr...
LiI-promoted LiOH formation in Li-O2 batteries with wet ether electrolytes has been investigated by ...
LiI-promoted LiOH formation in Li-O2 batteries with wet ether electrolytes has been investigated by ...
LiI-promoted LiOH formation in Li-O 2 batteries with wet ether electrolytes has been investigated by...
When lithium–oxygen batteries discharge, O2 is reduced at the cathode to form solid Li2O2. Underst...
We have characterized the structure and picosecond dynamics of the hydrogen bond network of solvated...
© 2020 American Chemical Society. We propose a new nonpolarizable molecular mechanics force field fo...
Lithium iodide (LiI) has garnered considerable attention in aprotic Li–O<sub>2</sub> batteries. Howe...
Glyme–lithium salt equimolar mixtures, as solvate ionic liquid electrolytes for rechargeable lithium...
Li-O₂ batteries offer higher gravimetric energy density than commercial Li-ion batteries. Despite th...
Increasing utilization of renewable, but intermittent energy sources like wind and solar necessitate...
The activity of lithium ions in electrolytes depends on their solvation structures. However, the und...
The building of safe and high energy-density lithium batteries is strongly dependent on the electroc...
The use of LiI as redox mediator for the charge reaction in nonaqueous Li/O<sub>2</sub> cells has be...
© 2021 American Chemical Society.Water-in-salt electrolytes (WiSEs) are a safer alternative to conve...
Molecular dynamics (MD) simulations, density functional theory (DFT) calculations, and 1H NMR spectr...
LiI-promoted LiOH formation in Li-O2 batteries with wet ether electrolytes has been investigated by ...
LiI-promoted LiOH formation in Li-O2 batteries with wet ether electrolytes has been investigated by ...
LiI-promoted LiOH formation in Li-O 2 batteries with wet ether electrolytes has been investigated by...
When lithium–oxygen batteries discharge, O2 is reduced at the cathode to form solid Li2O2. Underst...
We have characterized the structure and picosecond dynamics of the hydrogen bond network of solvated...
© 2020 American Chemical Society. We propose a new nonpolarizable molecular mechanics force field fo...
Lithium iodide (LiI) has garnered considerable attention in aprotic Li–O<sub>2</sub> batteries. Howe...
Glyme–lithium salt equimolar mixtures, as solvate ionic liquid electrolytes for rechargeable lithium...
Li-O₂ batteries offer higher gravimetric energy density than commercial Li-ion batteries. Despite th...
Increasing utilization of renewable, but intermittent energy sources like wind and solar necessitate...
The activity of lithium ions in electrolytes depends on their solvation structures. However, the und...