Catalytic hydrogen production via NaBH4 hydrolysis: Role of WO3 nanopellets
Shobharajsinh Rathod, Devanshu Gajjar, Kinjal K. Joshi, Pratik M. Pataniya, C.K. Sumesh, Sanni Kapatel
Abstract
Hydrogen is a promising alternative energy source due to its high energy capacity and emission-free characteristics, fulfilling the future energy needs from non-fossil sources. This study demonstrates a rapid, in situ, and cost-effective method for hydrogen production through the hydrolysis of sodium borohydride (NaBH 4 ) supported by tungsten trioxide (WO 3 ) nanopellets (NPs) synthesized via microwave-assisted co-precipitation method. The WO 3 NPs exhibit excellent catalytic activity , achieving a hydrogen generation rate (HGR) of 339.1 mL min −1 g −1 at 25 °C, surged to 485.8 mL min −1 g −1 at increasing NaBH 4 solution. At an optimal pH of 8, an HGR of 340.8 mL min −1 g −1 is achieved, and the lowest activation energy of 27.8 kJ mol −1 allows efficient catalysis, reaching an HGR of 935.4 mL min −1 g −1 at 70 °C. The stability of the catalyst was tested for over five cycles and a step reaction was also introduced to control the H 2 production. These results highlight the potential of WO 3 NPs as a robust and economical catalyst for sustainable hydrogen production , offering significant advantages in scalability and efficiency for clean energy applications .