Mesoporous conducting carbon-based materials for energy. This project aims to synthesise highly ordered mesoporous conducting polymers and graphitic carbons with a high conductivity, different pore structures, tuneable pore diameters, and functionalised with transition metal oxide nanoparticles. It will make a highly efficient, low cost and stable energy storage device using functionalised mesoporous conducting polymeric and graphitic electrodes that combine pseudo capacitance and electrical dou ....Mesoporous conducting carbon-based materials for energy. This project aims to synthesise highly ordered mesoporous conducting polymers and graphitic carbons with a high conductivity, different pore structures, tuneable pore diameters, and functionalised with transition metal oxide nanoparticles. It will make a highly efficient, low cost and stable energy storage device using functionalised mesoporous conducting polymeric and graphitic electrodes that combine pseudo capacitance and electrical double layer capacitance, high power and energy density and a long cycle life. This electrode system for supercapacitors is expected to address clean energy generation and environmental problems and create opportunities for Australian industries.Read moreRead less
Design of novel nanoporous semiconductor materials for clean environment and energy. This project will develop a low cost nanoporous semiconductor device for the capture and conversion of CO2 into fuels by using water and sunlight. This novel approach will deliver a low cost technology that offers clean energy and will help to mitigate global warming.