by-product / aqueous borohydride solutions / hydrothermal synthesis protocols / sodium borohydride solution / metal oxides / gas analyzer / hydrogen gas generation rate / hydrogen gas sources / alloy products / stabilized sodium borohydride solutions / synthesis protocols / hydrogen gas generator using aqueous borohydride solution / metal oxide / chemical hydrides / chemical reaction / alkaline solutions / hydrogen gas / aqueous solution / metal catalyst / energy / hydrogen gas evolution rate / chemical reagents / transition metal catalysts / generation using sodium borohydride solution / prepared solution / reaction solution / chemical properties / mL solution / precursor solutions / aqueous alkaline solutions / gas constant / noble metal catalysts / product gas stream / chloride solutions / sodium borohydride solutions / alkaline borohydride solutions / aqueous solutions / chemical / alkaline solution / gas yield / alloy product / kW-scale hydrogen generator using chemical hydride / activation energy / /
Organization
Ar0nas Jagminas State Research Institute Center for Physical Sciences and Technology / American Chemical Society / vol. / Institute of Chemistry / Lithuania Science Foundation / /
Person
L. Gales / V / V. Pakˇstas / Hai Lu / Marija Kurtinaitien / Crystal Growth / Algis Selskis / Albina Cielien / Loreta Tamašauskait / /
Position
Academic Editor / CoO / /
Product
S-6000 / /
PublishedMedium
International Journal of Hydrogen Energy / Journal of the Chemical Society / Dalton Transactions / Journal of the American Chemical Society / /
Hindawi Publishing Corporation Advances in Materials Science and Engineering Volume 2013, Article ID[removed], 7 pages http://dx.doi.org[removed][removed]Research Article