Add to ORKGSolid-state polymer electrolytes and high-concentration liquid electrolytes, such as water-in-salt electrolytes and ionic liquids, are emerging materials to replace the flammable organic electrolytes widely used in industrial lithium-ion batteries. Extensive efforts have been made to understand the ion transport mechanisms and optimize the ion transport properties. This perspective reviews the current understanding of the ion transport and polymer dynamics in liquid and polymer electrolytes, comparing the similarities and differences in the two types of electrolytes. Combining recent experimental and theoretical findings, we attempt to connect and explain ion transport mechanisms in different types of small-molecule and polymer electrolytes...
Transport of ions in polymer electrolytes is of significant practical interest, however, differences...
Mixtures of neutral polymers and lithium salts have the potential to serve as electrolytes in next-g...
Mixtures of neutral polymers and lithium salts have the potential to serve as electrolytes in next-g...
Atomistic analysis of the ion transport in polymer electrolytes for all-solid-state Li-ion batteries...
The performance of metal-ion batteries at low temperatures and their fast charge/discharge rates are...
Solid polymer electrolytes have been the subject of considerable fundamental and applied chem. resea...
Solid polymer electrolytes have been the subject of considerable fundamental and applied chem. resea...
Batteries with superior performance will advance many technologies, such as the field of energy stor...
Lithium-ion batteries are essential for the decarbonization of our power generation systems and elec...
We employ atomistic mol. dynamics (MD), in tandem with exptl. studies, to elucidate the mechanisms o...
While ion transport in solid polymer electrolytes (SPEs) has been explored for decades, there still ...
Polymer electrolytes are ionically conducting solid phases formed by the dissolution of salts in ion...
Polymer electrolytes are ionically conducting solid phases formed by the dissolution of salts in ion...
Next-generation lithium batteries with high energy densities are desired for powering the future fle...
Polymer-electrolytes for use in lithium rechargeable batteries have the potential ability to power p...
Transport of ions in polymer electrolytes is of significant practical interest, however, differences...
Mixtures of neutral polymers and lithium salts have the potential to serve as electrolytes in next-g...
Mixtures of neutral polymers and lithium salts have the potential to serve as electrolytes in next-g...
Atomistic analysis of the ion transport in polymer electrolytes for all-solid-state Li-ion batteries...
The performance of metal-ion batteries at low temperatures and their fast charge/discharge rates are...
Solid polymer electrolytes have been the subject of considerable fundamental and applied chem. resea...
Solid polymer electrolytes have been the subject of considerable fundamental and applied chem. resea...
Batteries with superior performance will advance many technologies, such as the field of energy stor...
Lithium-ion batteries are essential for the decarbonization of our power generation systems and elec...
We employ atomistic mol. dynamics (MD), in tandem with exptl. studies, to elucidate the mechanisms o...
While ion transport in solid polymer electrolytes (SPEs) has been explored for decades, there still ...
Polymer electrolytes are ionically conducting solid phases formed by the dissolution of salts in ion...
Polymer electrolytes are ionically conducting solid phases formed by the dissolution of salts in ion...
Next-generation lithium batteries with high energy densities are desired for powering the future fle...
Polymer-electrolytes for use in lithium rechargeable batteries have the potential ability to power p...
Transport of ions in polymer electrolytes is of significant practical interest, however, differences...
Mixtures of neutral polymers and lithium salts have the potential to serve as electrolytes in next-g...
Mixtures of neutral polymers and lithium salts have the potential to serve as electrolytes in next-g...