Bulk Mg based hydrogen storage alloys with faster activation. Bulk Mg based hydrogen storage alloys with faster activation. This project aims to improve the performance and efficiency of manufacture of magnesium-based hydrogen storage alloys, making them more cost competitive and widely useable. A hydrogen economy will reduce greenhouse gas emissions and improve air quality in urban areas. The expected outcomes are an understanding of the mechanisms governing the activation process, a necessary ....Bulk Mg based hydrogen storage alloys with faster activation. Bulk Mg based hydrogen storage alloys with faster activation. This project aims to improve the performance and efficiency of manufacture of magnesium-based hydrogen storage alloys, making them more cost competitive and widely useable. A hydrogen economy will reduce greenhouse gas emissions and improve air quality in urban areas. The expected outcomes are an understanding of the mechanisms governing the activation process, a necessary step in manufacture, and techniques to exploit these mechanisms to minimise the activation time. This is expected to develop competitive, bulk magnesium-based hydrogen storage alloys for effective and safe hydrogen storage systems.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