High performance batteries based on hybrid magnesium and lithium chemistry
This work studied hybrid batteries assembled with a Mg metal anode, a Li+ ion intercalation
cathode and a dual-salt electrolyte containing Mg2+ and Li+ ions. We show that such hybrid
batteries were able to combine the advantages of Li and Mg electrochemistry. They
delivered outstanding rate performance (83% capacity retention at 15 C) with superior safety
and stability (∼ 5% fade for 3000 cycles).
cathode and a dual-salt electrolyte containing Mg2+ and Li+ ions. We show that such hybrid
batteries were able to combine the advantages of Li and Mg electrochemistry. They
delivered outstanding rate performance (83% capacity retention at 15 C) with superior safety
and stability (∼ 5% fade for 3000 cycles).
This work studied hybrid batteries assembled with a Mg metal anode, a Li+ ion intercalation cathode and a dual-salt electrolyte containing Mg2+ and Li+ ions. We show that such hybrid batteries were able to combine the advantages of Li and Mg electrochemistry. They delivered outstanding rate performance (83% capacity retention at 15 C) with superior safety and stability (∼5% fade for 3000 cycles).
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