Scalable high-density hydrogen storage by nano-bubbles in layered materials. Stable and low-cost hydrogen storage and transportation are cornerstones of a global hydrogen economy. This project aims to advance a novel hydrogen storage technology based on highly pressurised nano-bubbles in layered materials. The project expects to expand our fundamental knowledge of the interactions between hydrogen and layered materials. Expected outcomes include a hydrogen storage technology that exhibits a rema ....Scalable high-density hydrogen storage by nano-bubbles in layered materials. Stable and low-cost hydrogen storage and transportation are cornerstones of a global hydrogen economy. This project aims to advance a novel hydrogen storage technology based on highly pressurised nano-bubbles in layered materials. The project expects to expand our fundamental knowledge of the interactions between hydrogen and layered materials. Expected outcomes include a hydrogen storage technology that exhibits a remarkable energy density, high stability and low cost. This should provide significant benefits, such as improving the capacity and robustness of low-cost hydrogen storage and transportation, reducing energy costs and making hydrogen energy a more accessible and sustainable clean energy source for Australia.Read moreRead less
Novel hydrogen-rich liquids for storing and transporting hydrogen at scale. Hydrogen is proposed as the best candidate to store large amounts of energy produced by intermittent sources such as wind and solar. This project aims to address challenges in storing and transporting large amounts of hydrogen in a safe and effective way by developing novel liquid-phase compounds that contain light elements including boron, carbon, nitrogen, and hydrogen. Expected outcomes of this project include new liq ....Novel hydrogen-rich liquids for storing and transporting hydrogen at scale. Hydrogen is proposed as the best candidate to store large amounts of energy produced by intermittent sources such as wind and solar. This project aims to address challenges in storing and transporting large amounts of hydrogen in a safe and effective way by developing novel liquid-phase compounds that contain light elements including boron, carbon, nitrogen, and hydrogen. Expected outcomes of this project include new liquid compounds that can effectively and safely store hydrogen at scale using the exisiting liquid hydrocarbon fuel infrastructure. This should provide significant benefits in the establishment of renewable hydrogen for domestic consumption and more for exporting sustainable and clean fuel using hydrogen as the energy carrier.Read moreRead less