Cover: On page 4860, V. Di Noto and co-workers show the first iodoaluminate ionic liquid for the development of future Mg/I2 secondary batteries. Reversible magnesium deposition/stripping with low overvoltage and high (99.94%) coulombic efficiency is achieved and a detailed investigation of the Mg interaction scenario is reported
The depletion of lithium and cobalt resources is pushing researchers to develop a more sustainable e...
he search for electrolytes with enhanced performance is a crucial point for the development of effic...
Mg has great potential as the basis for a safe, low cost energy storage technology, however, cycling...
The quest for new electrolyte and cathode materials is a crucial point for beyond-lithium-ion energy...
Recent advances in technological fields such as portable electronic devices, automotive, load levell...
© The Author(s) 2017. Rechargeable magnesium batteries have attracted considerable attention because...
(Invited Presentation) The development of innovative electrolytes is one of the most crucial targets...
The electrochemistry of Mg salts in room-temperature ionic liquids (ILs) was studied using plating/s...
This work develops new ionic-liquid based electrolytes for magnesium secondary batteries, and also s...
Understanding Mg-ion speciation is of utmost importance to the rational design of electrolytes for r...
A non-nucleophilic electrolyte for rechargeable Mg-ion batteries is developed by the reaction of mag...
abstract: A lack of adequate energy storage technologies is arguably the greatest hindrance to a mod...
Mg-based secondary batteries are attracting candidates to satisfy the increasing demand at the globa...
Benefiting from the appealing Mg metal anodes, magnesium batteries (MBs) present attractive potentia...
International audienceA non-nucleophilic electrolyte for rechargeable Mgion batteries is developed b...
The depletion of lithium and cobalt resources is pushing researchers to develop a more sustainable e...
he search for electrolytes with enhanced performance is a crucial point for the development of effic...
Mg has great potential as the basis for a safe, low cost energy storage technology, however, cycling...
The quest for new electrolyte and cathode materials is a crucial point for beyond-lithium-ion energy...
Recent advances in technological fields such as portable electronic devices, automotive, load levell...
© The Author(s) 2017. Rechargeable magnesium batteries have attracted considerable attention because...
(Invited Presentation) The development of innovative electrolytes is one of the most crucial targets...
The electrochemistry of Mg salts in room-temperature ionic liquids (ILs) was studied using plating/s...
This work develops new ionic-liquid based electrolytes for magnesium secondary batteries, and also s...
Understanding Mg-ion speciation is of utmost importance to the rational design of electrolytes for r...
A non-nucleophilic electrolyte for rechargeable Mg-ion batteries is developed by the reaction of mag...
abstract: A lack of adequate energy storage technologies is arguably the greatest hindrance to a mod...
Mg-based secondary batteries are attracting candidates to satisfy the increasing demand at the globa...
Benefiting from the appealing Mg metal anodes, magnesium batteries (MBs) present attractive potentia...
International audienceA non-nucleophilic electrolyte for rechargeable Mgion batteries is developed b...
The depletion of lithium and cobalt resources is pushing researchers to develop a more sustainable e...
he search for electrolytes with enhanced performance is a crucial point for the development of effic...
Mg has great potential as the basis for a safe, low cost energy storage technology, however, cycling...
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