Engineered nanoporous materials and composites having hierarchical structures by emulsion templating. The project aims to develop new and flexible emulsion-templated processes capable of constructing novel nanoporous materials with hierarchical structures. The project has the potential to revolutionise current approaches for making porous materials, and the outcomes will enhance Australia's ability in frontier technologies and advanced materials.
A defect mechanism for oxygen reduction reaction. This project aims to use defective carbon to replace expensive platinum as a catalyst for oxygen reduction reaction (ORR) in fuel cells. Defective carbons incorporating non-precious metals are better than platinum in terms of over-potential, current density and number of electron transfer. They reduce the overall fuel cell cost but their better stability and higher open voltage and power density promise huge commercial benefit. This project is ex ....A defect mechanism for oxygen reduction reaction. This project aims to use defective carbon to replace expensive platinum as a catalyst for oxygen reduction reaction (ORR) in fuel cells. Defective carbons incorporating non-precious metals are better than platinum in terms of over-potential, current density and number of electron transfer. They reduce the overall fuel cell cost but their better stability and higher open voltage and power density promise huge commercial benefit. This project is expected to be important for large-scale implementation of fuel cells.Read moreRead less
Development and Application of VO2-based Advanced Nanomaterials for Smart Window Coatings. This project aims to develop innovative strategies for the synthesis and thin film coating of vanadium dioxide nanoparticles, and understand the fundamentals through a comprehensive experimental and theoretical program. The findings aim to then be directly used in developing smart windows that have many applications in various industries. The project aims to significantly expand the knowledge creativity an ....Development and Application of VO2-based Advanced Nanomaterials for Smart Window Coatings. This project aims to develop innovative strategies for the synthesis and thin film coating of vanadium dioxide nanoparticles, and understand the fundamentals through a comprehensive experimental and theoretical program. The findings aim to then be directly used in developing smart windows that have many applications in various industries. The project aims to significantly expand the knowledge creativity and research capability of Australia, and add value to its rich resource of vanadium oxides in advanced material manufacturing.Read moreRead less