Mesoporous Metal Scaffolds: Reactive Containment Vessels. The storage of hydrogen is one of the most important issues that remains to be solved before the mass implementation of hydrogen as an energy carrier becomes commercially viable. This project aims to determine the kinetic and thermodynamic benefits of mesoporous metal scaffolds as reactive containment vessels for hydrogen storage materials. Fundamental experimental research into the synthesis, characterisation, and modification of nano-co ....Mesoporous Metal Scaffolds: Reactive Containment Vessels. The storage of hydrogen is one of the most important issues that remains to be solved before the mass implementation of hydrogen as an energy carrier becomes commercially viable. This project aims to determine the kinetic and thermodynamic benefits of mesoporous metal scaffolds as reactive containment vessels for hydrogen storage materials. Fundamental experimental research into the synthesis, characterisation, and modification of nano-confined hydrogen storage materials will be carried out. The results of this research are expected be used to tune hydrogen desorption temperatures and pressures of various light weight hydrogen storage materials to generate new materials attractive to the automobile industry.Read moreRead less
Exploration of highly regenerable boron-nitrogen based hydrides for hydrogen storage. The project will design and synthesise novel boron-nitrogen hydrides. It will employ material design strategies, such as new synthesis techniques, dopant destabilisation, and dehydrogenation catalysts to design and experimentally validate novel multicomponent hydride systems with high storage capacities (above 9 wt% under near-ambient conditions) and high reversibility. The outcomes of this project will make a ....Exploration of highly regenerable boron-nitrogen based hydrides for hydrogen storage. The project will design and synthesise novel boron-nitrogen hydrides. It will employ material design strategies, such as new synthesis techniques, dopant destabilisation, and dehydrogenation catalysts to design and experimentally validate novel multicomponent hydride systems with high storage capacities (above 9 wt% under near-ambient conditions) and high reversibility. The outcomes of this project will make a significant enhancement in the performance of solid state hydrogen storage materials and will deliver a viable storage technology for a range of fuel cell applications.Read moreRead less
Liquid-phase hydrogen carriers for energy storage and delivery. This project aims to overcome hydrogen storage and delivery issues by developing liquid-phase hydrogen storage materials with high hydrogen capacity, exceptional stability and that do not change phase during hydrogen evolution. This project will build on the recent synthesis of strategically important hydrogen storage compounds. The innovative liquid-phase hydrogen storage and delivery technology will enable effective usage of estab ....Liquid-phase hydrogen carriers for energy storage and delivery. This project aims to overcome hydrogen storage and delivery issues by developing liquid-phase hydrogen storage materials with high hydrogen capacity, exceptional stability and that do not change phase during hydrogen evolution. This project will build on the recent synthesis of strategically important hydrogen storage compounds. The innovative liquid-phase hydrogen storage and delivery technology will enable effective usage of established liquid fuel distribution techniques and infrastructure throughout the country. The project would benefit renewable energy, chemical, and manufacturing industries, where new employment opportunities would be created.Read moreRead less