Ammonia borane (AB) is one of the most attractive hydrides owing to its high hydrogen density (19.5 wt%). Stored hydrogen can be released by thermolysis or catalyzed hydrolysis, both routes having advantages and issues. The present study has envisaged for the first time the combination of thermolysis and hydrolysis, AB being first thermolyzed and then the solid by-product believed to be polyaminoborane [NH2BH2](n) (PAR) being hydrolyzed. Herein we report that: (i) the combination is feasible, (ii) PAB hydrolyzes in the presence of a metal catalyst (Ru) at 40 degrees C, (iii) a total of 3 equiv. H-2 is released from AB and PAB-H2O, (iv) high hydrogen generation rates can be obtained through hydrolysis, and (v) the by-products stemming from the PAR hydrolysis are ammonium borates. The following reactions may be proposed: AB -> PAB + H-2 and PAB + xH(2)O -> 2H(2) + ammonium borates. All of these aspects as well as the advantages and issues of the combination of AB thermolysis and PAR hydrolysis are discussed. (C) 2010 Elsevier B.V. All rights reserved.