Solar-powered methanol conversion for on-demand hydrogen production. Methanol is an ideal hydrogen carrier due to its low cost, high hydrogen content, and liquid phase for easy storage and transport b

Description

Solar-powered methanol conversion for on-demand hydrogen production. Methanol is an ideal hydrogen carrier due to its low cost, high hydrogen content, and liquid phase for easy storage and transport but facing problems with hydrogen release. This project aims to achieve cost-effective and emission-free methanol conversion for on-demand hydrogen production. The key concept is the rational design of high-performance single-atom catalytic materials for solar-powered photocatalytic methanol conversion to hydrogen and value-added chemical formaldehyde with high productivity and selectivity. Expected outcomes include cutting-edge knowledge in the synthesis of functional materials and technology for efficient methanol-to-hydrogen conversion, contributing to the development of the hydrogen economy in Australia.. Scheme: Discovery Early Career Researcher Award. Field: 4016 - Materials Engineering. Lead: Dr MU XIAO