Dec 16, 2014 · We have investigated the hydrogen storage ability and the effect of hydrogenation on structure and physical properties of Ti/V and their oxides-based thin ...
A large hydrogen storage (up to 20 at.%) was also found in the V2O5 layers, while no hydrogen accumulation was found in the TiO2 layers.
We have investigated the hydrogen storage ability and the effect of hydrogenation on structure and physical properties of Ti/V and their oxides-based thin ...
For the Ti–TiO2–Ti films up to 50 at.% of hydrogen can be stored in the Ti layers, while the hydrogen can penetrate without accumulation through the TiO2 layer.
For the Ti–TiO₂–Ti films up to 50 at.% of hydrogen can be stored in the Ti layers, while the hydrogen can penetrate without accumulation through the TiO₂ layer.
Oct 31, 2015 · Hydrogen storage in Ti V Ni films. In order to get a deeper understanding of the hydro- gen absorption capacity, we extend our investigations to.
HERO ID. 5039673 ; Reference Type. Journal Article ; Title. Hydrogen storage in Ti, V and their oxides-based thin films ; Author(s). Tarnawski, Z; Zakrzewska, K; ...
We have investigated the hydrogen storage ability and the effect of hydrogenation on structure and physical properties of Ti/V and their oxides-based thin ...
We have investigated the hydrogen storage ability and the effect of hydrogenation on structure and physical properties of Ti/V and their oxides-based thin ...
The highest hydrogen storage with a concentration up to 50 at.% was found in the pure Ti and Ti-contained layer, while it amounts to around 30% in the metallic ...