As a key material for lithium metal batteries (LMBs), lithium metal is one of the most
promising anode materials to break the bottleneck of battery energy density and a commonly …

Electrolyte conductivity contributes to the efficiency of devices for electrochemical
conversion of carbon dioxide (CO2) into useful chemicals, but the effect of the dissolution of …

Li-air batteries have attracted interest as energy storage devices due to their high energy
and power density. Li-air batteries are expected to revolutionize the automobile industry (for …

The challenges facing metal-air batteries have prompted fundamental studies of non-
aqueous electrochemistry. However it appears that contributors in the field are not aware …

Lithium–air batteries have emerged as an interesting alternative for advanced energy
storage devices. The complexity of such systems imposes great challenges. One of them …

Aqueous redox flow batteries (ARFBs) are poised to be a major energy storage technology
when coupled with rapidly proliferating renewable wind and solar power generation. The …

High concentrated liquid aprotic electrolytes have been proposed as a new class of
electrolytes and received intense attention for use in Li-ion and Li-metal batteries. We …

Presolvated electron possibility in three oxidation states of aluminum–Al (0), Al (I), and Al (II)–
has been theoretically investigated for the Al+ 6NH3, Al (CH3)+ 5NH3, and Al (CH3) 2+ …

Lithium–sulfur battery is considered to be one of the main candidates for “post-lithium-ion”
battery generation because of its high theoretical specific capacity and inherently low cost …

We present molecular dynamics simulation results pertaining to the solvation of Li+ in
dimethyl sulfoxide-acetonitrile binary mixtures. The results are potentially relevant in the …