Add to ORKGRechargeable battery with pure magnesium metal as anode and electrolytically fluorinated natural graphite cathode with gelatinized ionic liquid based electrolyte is developed. The self assembled gel electrolyte is beneficial in enhancing the cell performance by improving the reversibility of the electrodes. The fluorinated natural graphite facilitates Mg intercalation and de-intercalation. The specific capacity of the cell is 100 mAhg−1, average discharge voltage is 1.6 V at constant current discharge of 0.1 mAcm−2
Our world is in peril! Gaia the spirit of the Earth can no long stand the terrible destruction plagu...
A low cost graphite was examined as a negative electrode for rechargeable Lithium batteries. The use...
We present a promising electrolyte candidate, Mg(TFSI)<sub>2</sub> dissolved in glyme/diglyme, for ...
An aluminum–ion battery comprised of fluorinated natural graphite cathode, aluminum anode and AlCl3 ...
International audienceA non-nucleophilic electrolyte for rechargeable Mgion batteries is developed b...
A non-nucleophilic electrolyte for rechargeable Mg-ion batteries is developed by the reaction of mag...
Investigations leading to understanding and development of solid state rechargeable magnesium batter...
Batteries are now powering our world and an ideal battery that is characterized by high capacity, sa...
The demand for new energy storage systems to be employed in large-scale electrical energy storage sy...
There is an urgent need to fulfill the global thirst for energy in an efficient and safer way. Since...
The electrochemical reversibility of Mg in hybrid electrolytes based on mixtures of ionic liquid and...
Further development of high voltage lithium-ion batteries requires electrolyte formulations stable a...
Lithium-ion batteries have had huge success in the last three decades. Although their chemistry has ...
The electrochemical reversibility of Mg in hybrid electrolytes based on mixtures of ionic liquid an...
Rechargeable magnesium batteries are gaining a lot of interest due to promising electrochemical feat...
Our world is in peril! Gaia the spirit of the Earth can no long stand the terrible destruction plagu...
A low cost graphite was examined as a negative electrode for rechargeable Lithium batteries. The use...
We present a promising electrolyte candidate, Mg(TFSI)<sub>2</sub> dissolved in glyme/diglyme, for ...
An aluminum–ion battery comprised of fluorinated natural graphite cathode, aluminum anode and AlCl3 ...
International audienceA non-nucleophilic electrolyte for rechargeable Mgion batteries is developed b...
A non-nucleophilic electrolyte for rechargeable Mg-ion batteries is developed by the reaction of mag...
Investigations leading to understanding and development of solid state rechargeable magnesium batter...
Batteries are now powering our world and an ideal battery that is characterized by high capacity, sa...
The demand for new energy storage systems to be employed in large-scale electrical energy storage sy...
There is an urgent need to fulfill the global thirst for energy in an efficient and safer way. Since...
The electrochemical reversibility of Mg in hybrid electrolytes based on mixtures of ionic liquid and...
Further development of high voltage lithium-ion batteries requires electrolyte formulations stable a...
Lithium-ion batteries have had huge success in the last three decades. Although their chemistry has ...
The electrochemical reversibility of Mg in hybrid electrolytes based on mixtures of ionic liquid an...
Rechargeable magnesium batteries are gaining a lot of interest due to promising electrochemical feat...
Our world is in peril! Gaia the spirit of the Earth can no long stand the terrible destruction plagu...
A low cost graphite was examined as a negative electrode for rechargeable Lithium batteries. The use...
We present a promising electrolyte candidate, Mg(TFSI)<sub>2</sub> dissolved in glyme/diglyme, for ...