Published October 2010

Working out of materials for highly capacious hydrogen sorption on a basis of nanocarbon intermetallic compositions LaMnNi

E.А. Samadov

A.M. Hasanov

By the method evaporation in inert atmosphere highly capacious hydrogen sorption materials on a basis of nanocarbon intermetallic compositions LaMnNi are received. X-ray phase, differential gravimetric (DTG), differential thermal (DTA) analyses and also IR-spectroscopy methods have specified in diphasic structure of the received nanocompositions. Thus thanks to presence nanocarbon structures materials possess high sorption capacity, metals which are parts of compositions carry out a role of catalysts both in hydrogen sorbents and in process of sorption. On the basis of received sorption materials two-section experimental hydrogen accumulator has been produced with its improved characteristics of heat-mass exchange.