Amongt he all emergentc hemical hydrogen-storage materials, B-N-H compounds, especially ammonia borane (AB) and hydrazine borane (HB), appear to be the most favorable ones owing to their advantageous features. However, hydrogen generation from these compounds in an efficient and controllable way is required for the development of new catalytic systems. We report herein af acile wet-chemical synthesis of an ew nanocatalyst, namely,m onodisperse CuPt alloy nanoparticles (NPs) supported on Ketjen Black (KB-CuPt), that exhibits unprecedented catalytic activity in the hydrolytic dehydrogenation of AB and HB with initial turnover frequencies (TOF) of 859 and 832 mol H 2 mol Pt À1 min À1 ,r espectively,u nder ambient conditions. The reported TOF values are record amonga ll Pt-based catalysts that have been tested in both hydrolysis reactions hitherto. This study also includes detailed kinetics of the KB-Cu 68 Pt 32catalyzed hydrolytic dehydrogenation of both AB and HB studied on av ariety of parameters.[a] T. Figure 4. Kineticsoft he KB-Cu 68 Pt 32 -catalyzedh ydrolytic dehydrogenation of hydrazine borane (HB) with different a) alloy compositions {catalyst (5.0 mg, 0.002 mmol Pt), [HB] = 100 mm, T = 298 K}, b) catalysta mounts ([HB] = 100 mm, T = 298 K), c) temperatures {catalyst( 2.5 mg, 0.001 mmol Pt), [HB] = 100 mm}, and d) runs (reusability test).