Fused molecules are building blocks for safer lithium-ion batteries
October 03, 2024
October 03, 2024
ITHACA, New York, Oct. 3 -- Cornell University issued the following news:
By fusing together a pair of contorted molecular structures, Cornell researchers created a porous crystal that can uptake lithium-ion electrolytes and transport them smoothly via one-dimensional nanochannels a design that could lead to safer solid-state lithium-ion batteries.
The team's paper, "Supramolecular Assembly of Fused Macrocycle-Cage Molecules for Fast Lithium-Ion Transport," pu . . .
By fusing together a pair of contorted molecular structures, Cornell researchers created a porous crystal that can uptake lithium-ion electrolytes and transport them smoothly via one-dimensional nanochannels a design that could lead to safer solid-state lithium-ion batteries.
The team's paper, "Supramolecular Assembly of Fused Macrocycle-Cage Molecules for Fast Lithium-Ion Transport," pu . . .