Because vanadium has many different structures resulting from different growing conditions. I would like to know if you have a deposit technique in mind and its conditions.
This structure of vanadium pentoxide is well adapted to the reversible incorporation of Li + ion, however I would like to know the retention capacity and if this capacity depends on the temperature?
The retention capacity in our experiments depends on the thickness of the vanadium pentoxide films as well as the temperature of production. For the best conditions, we get up to 55% of retention capacity.
Poster 16 is about vanadium dioxide (VO2), whose structure is similar to TiO2. Vandium pentoxide (V2O5) shows a layered structure. This results in different diffusion and insertion properties for lithium ions.
Comments
Because vanadium has many different structures resulting from different growing conditions. I would like to know if you have a deposit technique in mind and its conditions.
Jose vega hincapié.
Excellent work.
This structure of vanadium pentoxide is well adapted to the reversible incorporation of Li + ion, however I would like to know the retention capacity and if this capacity depends on the temperature?
Poster 16 is about vanadium dioxide (VO2), whose structure is similar to TiO2. Vandium pentoxide (V2O5) shows a layered structure. This results in different diffusion and insertion properties for lithium ions.