Add to ORKG© 2018 American Chemical Society. New highly concentrated electrolytes based on ether solvents were developed for sodium electrochemical cells. The investigated electrolytes use sodium triflate and glycol diether oligomers of different length to form the electrolyte. These electrolytes present conductivities that increase as a function of concentration even when the electrolyte is composed of a majority of ion pairs and aggregates. Correlation analysis between the electrolyte speciation and conductivity suggests the presence of two distinct mechanisms of charge transport, namely a traditional vehicular mechanism based on the diffusion of free ions and a hopping mechanism involving the making and breaking of ion-pairs and/or aggregates. The ...
Energy storage is essential for maintaining power grid stability while integrating diverse sources o...
There is growing interest in fluorinated electrolytes due to their high-voltage stability. We use fu...
Glyme electrolytes are prepared by dissolving sodium trifluoromethane sulfonate (NaCF3SO3) either in...
New highly concentrated electrolytes based on ether solvents were developed for sodium electrochemic...
The electrochemical window of water can expanded to ∼3 V using water-in-salt electrolytes (WiSE), wh...
Most of the battery electrolyte candidates for multivalent-ion systems (e.g. Mg, Ca) present interes...
© 2017 American Chemical Society. Given the prior success in developing lithium batteries for simila...
The optimal salt concentration used in metal-ion energy storage devices has long focused heavily on ...
Ambient temperature sodium batteries hold the promise of a new generation of high energy density, lo...
To elucidate what properties control and practically limit ion transport in highly concentrated elec...
The electrolytes diluted with fluorinated solvents show promising properties toward better battery t...
Structural, thermodynamic and transport properties have been calculated in concentrated non-aqueous ...
Physicochemical properties and battery performance of [Na(glyme)][TFSA] complexes (TFSA: bis(trif...
Superconcentrated electrolyte solutions are receiving increasing attention as a novel class of liqui...
Understanding the transport of sodium ions in ionic liquids is key to designing novel electrolyte ma...
Energy storage is essential for maintaining power grid stability while integrating diverse sources o...
There is growing interest in fluorinated electrolytes due to their high-voltage stability. We use fu...
Glyme electrolytes are prepared by dissolving sodium trifluoromethane sulfonate (NaCF3SO3) either in...
New highly concentrated electrolytes based on ether solvents were developed for sodium electrochemic...
The electrochemical window of water can expanded to ∼3 V using water-in-salt electrolytes (WiSE), wh...
Most of the battery electrolyte candidates for multivalent-ion systems (e.g. Mg, Ca) present interes...
© 2017 American Chemical Society. Given the prior success in developing lithium batteries for simila...
The optimal salt concentration used in metal-ion energy storage devices has long focused heavily on ...
Ambient temperature sodium batteries hold the promise of a new generation of high energy density, lo...
To elucidate what properties control and practically limit ion transport in highly concentrated elec...
The electrolytes diluted with fluorinated solvents show promising properties toward better battery t...
Structural, thermodynamic and transport properties have been calculated in concentrated non-aqueous ...
Physicochemical properties and battery performance of [Na(glyme)][TFSA] complexes (TFSA: bis(trif...
Superconcentrated electrolyte solutions are receiving increasing attention as a novel class of liqui...
Understanding the transport of sodium ions in ionic liquids is key to designing novel electrolyte ma...
Energy storage is essential for maintaining power grid stability while integrating diverse sources o...
There is growing interest in fluorinated electrolytes due to their high-voltage stability. We use fu...
Glyme electrolytes are prepared by dissolving sodium trifluoromethane sulfonate (NaCF3SO3) either in...