Defect Engineering Enabling Efficient Solar Hydrogen Production (2021–2023)
- Abstract:
- The project aims to achieve efficient renewable hydrogen production through solar driven photoelectrochemical water splitting. As a carbon-emission free process, photoelectrochemical water splitting is significant in solar hydrogen supply. The key idea is to design innovative photoelectrode materials using defect engineering strategy which allows more efficient conversion of solar energy to hydrogen. The expected outcomes include high Solar-to-Hydrogen conversion efficiency on the new materials and cutting-edge knowledge in advanced material design. The success of this project will contribute to the implementation of the Australia's National Hydrogen Strategy and position the nation at the frontier of renewable hydrogen supply technologies.
- Grant type:
- ARC Discovery Early Career Researcher Award
- Researchers:
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ARC Future Fellow
School of Chemical EngineeringFaculty of Engineering, Architecture and Information Technology
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- Funded by:
- Australian Research Council
