The increasing demand for high-energy powers have greatly incentivized the development of lithium carbon fluoride (Li||CFx ) cells. Five kinds of non-aqueous liquid electrolytes with various kinds of lithium salts (LiX, X=PF6 - , TFSI- , BF4 - , ClO4 - , and CF3 SO3 - ) were comparatively studied. Intriguingly, the LiBF4 -based electrolyte show relatively moderate ionic conductivities; yet, the corresponding Li||CFx cells deliver the highest discharge capacities among them. A combination of morphological and compositional analyses of the discharge CFx cathode suggest that the moderate donicity of BF4 - anion is accountable for favoring the breakdown of C-F bonds, and subsequently forming crystalline lithium fluoride as the main discharge products. This work brings not only fresh understanding on the role of salt anions for Li||CFx cells, but also inspire the electrolyte design for other conversion-type (sulfur and/or organosulfur) cathode materials desired for high-energy applications.
Keywords: Anion Donicity; Discharge Mechanism; Lithium Carbon Fluoride Batteries; Lithium Salt.
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