Add to ORKGTomo antraštė: 7th annual conference of young scientists on energy issues (CYSENI 2010), Kaunas, Lithuania, 27-28 May 2010Magnesium hydride is a promising material for hydrogen storage but the slow hydriding and dehydriding kinetics limit its practical application. Identification of effective catalyst is a subject of great interest in developing MgH2 system as a potential hydrogen storage medium. A thin layer of Ti acts as a catalyst. The main emphasis of this study was to investigate Mg-Ti-H system hydrogenation properties. For this purpose nanocrystalline Mg-Ti films were deposited onto quartz substrates using magnetron co-sputtering technique and hydrogenated at 10 bar H2 pressure in the temperature range from 200 up to 300 °C during 6 h...
Magnesium hydride, MgH2, is one of the most studied reversible hydrides, due to its high gravimetric...
On the long list of solid-state hydrogen storage materials, magnesium hydride stands out for its rel...
Nanometer-sized Mg hydride clusters may form in a self-organized way by the hydrogenation of a noneq...
Mg is an attractive hydrogen storage material not only because of its high gravimetric and volumetri...
In this paper, attention in focused on the nanostructured magnesium films for hydrogen storage.It is...
Hydrogen storage has become progressively important due to increasing energy demand. Magne-sium (Mg/...
Mg capped with Al and Ti thin layers and MgxNi films have been sputter-deposited on quartz substrate...
International audience1.8 micrometer-thick magnesium hydride films were synthesized in a single-step...
Efficient hydrogen storage is required for fuel cell vehicles to be competitive with those driven by...
In this paper, attention in focused on the nanostructured magnesium films for hydrogen storage. It i...
Mg-Ti alloys have uncommon optical and hydrogen absorbing properties, originating from a “spinodal-l...
In this paper, attention is focused on the nanostructured magnesium films for hydrogen storage. It i...
Mg2NiH4 is an interesting example of a complex metal hydride switchable mirror and hydrogen storage ...
Bilayer Mg/Ti (200 nm) thin films were successfully prepared by using D.C. magnetron sputtering unit...
Depleting fossil fuel reserves and growing climate threats urge us towards a sustainable society. Mo...
Magnesium hydride, MgH2, is one of the most studied reversible hydrides, due to its high gravimetric...
On the long list of solid-state hydrogen storage materials, magnesium hydride stands out for its rel...
Nanometer-sized Mg hydride clusters may form in a self-organized way by the hydrogenation of a noneq...
Mg is an attractive hydrogen storage material not only because of its high gravimetric and volumetri...
In this paper, attention in focused on the nanostructured magnesium films for hydrogen storage.It is...
Hydrogen storage has become progressively important due to increasing energy demand. Magne-sium (Mg/...
Mg capped with Al and Ti thin layers and MgxNi films have been sputter-deposited on quartz substrate...
International audience1.8 micrometer-thick magnesium hydride films were synthesized in a single-step...
Efficient hydrogen storage is required for fuel cell vehicles to be competitive with those driven by...
In this paper, attention in focused on the nanostructured magnesium films for hydrogen storage. It i...
Mg-Ti alloys have uncommon optical and hydrogen absorbing properties, originating from a “spinodal-l...
In this paper, attention is focused on the nanostructured magnesium films for hydrogen storage. It i...
Mg2NiH4 is an interesting example of a complex metal hydride switchable mirror and hydrogen storage ...
Bilayer Mg/Ti (200 nm) thin films were successfully prepared by using D.C. magnetron sputtering unit...
Depleting fossil fuel reserves and growing climate threats urge us towards a sustainable society. Mo...
Magnesium hydride, MgH2, is one of the most studied reversible hydrides, due to its high gravimetric...
On the long list of solid-state hydrogen storage materials, magnesium hydride stands out for its rel...
Nanometer-sized Mg hydride clusters may form in a self-organized way by the hydrogenation of a noneq...