Add to ORKGThe nature of protective surface layers formed on lithium in propylene carbonate solutions of LiClO{sub 4} and LiAsF{sub 6} at open circuit has been investigated by electrochemical pulse measurements. The results are consistent with the fastformation of a compact thin layer resulting from the reaction with residual water. This layer acts as a solid ionicconductor. Slow corrosion or decomposition processes produce a thicker porous overlayer
There is considerable ambiguity in the literature about the importance of lithium surface film on th...
Lithium methyl carbonate (LMC) is synthesized in a single step and investigated as a coating materia...
The effects of film-forming additives in electrolytes on the formation of a surface film on an edge ...
The nature of protective surface layers formed on lithium in propylene carbonate solutions of LiC104...
The nature of protective surface layers formed on lithium in propylene carbonate solutions of LiClO/...
The nature of protective surface layers formed on lithium in propylene carbonate solutions of LiClO/...
FTIR, IR, and XPS have been used to study the films formed on lithium in propylene carbonate solutio...
Microelectrodes have been employed to investigate the lithium/organic solvent system. Cyclic voltamm...
This study focuses on the elucidation of the formation mechanism of passive layers on AA2024-T3 duri...
<p>This study focuses on the elucidation of the formation mechanism of passive layers on AA2024-T3 d...
The chemical composition of the surface films formed on lithium in alkyl carbonate solutions wa expl...
The improvement of the l ithium cycling efficiency obtained by substituting an aluminum substrate fo...
The aim is to reveal the ion transport mechanism in the passivating films forming at contact of the ...
An investigation of the interrelationship of cycling performance, solution structure, and electrode ...
The electrochemical discharge of lithium thin films, prepared in ultrahigh vacuum, has been explored...
There is considerable ambiguity in the literature about the importance of lithium surface film on th...
Lithium methyl carbonate (LMC) is synthesized in a single step and investigated as a coating materia...
The effects of film-forming additives in electrolytes on the formation of a surface film on an edge ...
The nature of protective surface layers formed on lithium in propylene carbonate solutions of LiC104...
The nature of protective surface layers formed on lithium in propylene carbonate solutions of LiClO/...
The nature of protective surface layers formed on lithium in propylene carbonate solutions of LiClO/...
FTIR, IR, and XPS have been used to study the films formed on lithium in propylene carbonate solutio...
Microelectrodes have been employed to investigate the lithium/organic solvent system. Cyclic voltamm...
This study focuses on the elucidation of the formation mechanism of passive layers on AA2024-T3 duri...
<p>This study focuses on the elucidation of the formation mechanism of passive layers on AA2024-T3 d...
The chemical composition of the surface films formed on lithium in alkyl carbonate solutions wa expl...
The improvement of the l ithium cycling efficiency obtained by substituting an aluminum substrate fo...
The aim is to reveal the ion transport mechanism in the passivating films forming at contact of the ...
An investigation of the interrelationship of cycling performance, solution structure, and electrode ...
The electrochemical discharge of lithium thin films, prepared in ultrahigh vacuum, has been explored...
There is considerable ambiguity in the literature about the importance of lithium surface film on th...
Lithium methyl carbonate (LMC) is synthesized in a single step and investigated as a coating materia...
The effects of film-forming additives in electrolytes on the formation of a surface film on an edge ...