Novel Graphitic Mesoporous Carbon Materials for Next Generation Carbon Catalyst Supports and Carbon Electrodes. This project will bring about direct application benefits in terms of disclosing novel graphitic mesoporous carbons with high accessible surface area and graphitic framework as catalyst supports and electrode materials. This would lead to advanced processes important to the Australian energy and environmental industries, such as electrical double layer capacitors, greenhouse reduction ....Novel Graphitic Mesoporous Carbon Materials for Next Generation Carbon Catalyst Supports and Carbon Electrodes. This project will bring about direct application benefits in terms of disclosing novel graphitic mesoporous carbons with high accessible surface area and graphitic framework as catalyst supports and electrode materials. This would lead to advanced processes important to the Australian energy and environmental industries, such as electrical double layer capacitors, greenhouse reduction by hydrogen fuel, and hydrodesulfurization of diesel fuels. The techniques and synthesis strategies developed in this project are also applicable to creating other graphitic mesoporsous carbons important to advanced sensors, fuel cells and optoelectronic applications. Read moreRead less
High performance electrode materials for Reversible Solid Oxide Cells. This project aims to develop high-performance electrode materials used in reversible solid oxide cells (RSOC), which are a promising electrical energy storage technology. RSOC can work as solid oxide electrolysis cells for fuel production from electricity and as solid oxide fuel cells for electricity generation from fuel. The RSOC technology has the potential to provide a large-scale electrical energy storage solution for the ....High performance electrode materials for Reversible Solid Oxide Cells. This project aims to develop high-performance electrode materials used in reversible solid oxide cells (RSOC), which are a promising electrical energy storage technology. RSOC can work as solid oxide electrolysis cells for fuel production from electricity and as solid oxide fuel cells for electricity generation from fuel. The RSOC technology has the potential to provide a large-scale electrical energy storage solution for the widespread penetration of intermittent renewable energy resources into the electrical grid.Read moreRead less