The catalytic dehydrogenation of liquid organic hydrides (LOH) is a promising route to deliver H-2 for various mobile and stationary applications. However, an efficient and lowcost dehydrogenation catalyst, as an alternative to Pt, is a key for the success of LOHbased H-2 supply. In a quest for such catalysts, we synthesized stable Ag-Rh bimetallic nanoparticles (BNP) supported on activated carbon cloth (ACC) and Y2O3 using the microwave-assisted polyol technique. The performance of these catalysts during dehydrogenation of LOH viz., cyclohexane, was evaluated at 300 degrees C using an advanced spray pulse reactor system. The Ag:Rh ratio was optimized to maximize the cyclohexane conversion and H-2 evolution. The effect of Ag:Rh ratio, catalyst support, and synthesis method was investigated, too. The most stable H-2 evolution performance was exhibited by microwave-synthesized 1:4 Ag-Rh/Y2O3 catalyst with the cyclohexane conversion, dehydrogenation rate and H-2 evolution rate of 35.8%, 17.2 mmol/gmarnin and 400 mmol/ gmeimin, respectively. Finally, the performance of catalysts used in this study was compared with the Pt-based catalysts. (C) 2018 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.