Add to ORKGWe prepared Li4Ti5O12 (LTO) thin films as a high potential negative electrode by the sol-gel method and investigated the kinetics of lithium ion transfer at the interface between LTO thin film electrodes and ionic liquids by AC impedance spectroscopy. Activation energies for interfacial lithium ion transfer were evaluated based on the temperature dependences of the interfacial conductivities. We found that the activation energies for lithium ion transfer at electrodes/ionic liquids were higher, when compared with the case of conventional organic electrolytes. These higher activation energies for ionic liquids might be rationalized by the strong interaction between lithium ions and anion components of the ionic liquids
International audienceIon transfer reactions across the interface between an aqueous electrolyte sol...
International audienceIon transfer reactions across the interface between an aqueous electrolyte sol...
International audienceIon transfer reactions across the interface between an aqueous electrolyte sol...
Lithium-ion transfer through the interface between Li+-ion conductive ceramic electrolyte and ionic ...
All-solid-state lithium-ion batteries that use sulfide solid electrolytes have attracted much attent...
The Li+ ion transfer between a solid and a liquid Li+ electrolyte has been investigated by DC polari...
Silicon is a promising negative electrode material candidate for lithium-ion thin-film batteries bec...
There is considerable ambiguity in the literature about the importance of lithium surface film on th...
Silicon is a promising negative electrode material candidate for lithium-ion thin-film batteries bec...
Silicon is a promising negative electrode material candidate for lithium-ion thin-film batteries bec...
Silicon is a promising negative electrode material candidate for lithium-ion thin-film batteries bec...
Silicon is a promising negative electrode material candidate for lithium-ion thin-film batteries bec...
Silicon is a promising negative electrode material candidate for lithium-ion thin-film batteries bec...
The ionic liquid (IL) N-methyl-N-butylmorpholinium bis(fluorosulfonyl)imide (C4mmor FSI) is examined...
Purely ionic electrolytes—wherein ionic liquids replace neutral solvents—have been proposed to impro...
International audienceIon transfer reactions across the interface between an aqueous electrolyte sol...
International audienceIon transfer reactions across the interface between an aqueous electrolyte sol...
International audienceIon transfer reactions across the interface between an aqueous electrolyte sol...
Lithium-ion transfer through the interface between Li+-ion conductive ceramic electrolyte and ionic ...
All-solid-state lithium-ion batteries that use sulfide solid electrolytes have attracted much attent...
The Li+ ion transfer between a solid and a liquid Li+ electrolyte has been investigated by DC polari...
Silicon is a promising negative electrode material candidate for lithium-ion thin-film batteries bec...
There is considerable ambiguity in the literature about the importance of lithium surface film on th...
Silicon is a promising negative electrode material candidate for lithium-ion thin-film batteries bec...
Silicon is a promising negative electrode material candidate for lithium-ion thin-film batteries bec...
Silicon is a promising negative electrode material candidate for lithium-ion thin-film batteries bec...
Silicon is a promising negative electrode material candidate for lithium-ion thin-film batteries bec...
Silicon is a promising negative electrode material candidate for lithium-ion thin-film batteries bec...
The ionic liquid (IL) N-methyl-N-butylmorpholinium bis(fluorosulfonyl)imide (C4mmor FSI) is examined...
Purely ionic electrolytes—wherein ionic liquids replace neutral solvents—have been proposed to impro...
International audienceIon transfer reactions across the interface between an aqueous electrolyte sol...
International audienceIon transfer reactions across the interface between an aqueous electrolyte sol...
International audienceIon transfer reactions across the interface between an aqueous electrolyte sol...