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Novel CO2-stable oxygen transporting membranes for oxyfuel-based CO2 capture and utilization. Industrial carbon dioxide (CO2) emission is considered the main contribution to global warming. This project aims to develop a new class of oxygen transporting membrane (OTM) for CO2 capture and utilisation. To achieve this objective, the formation process and the unique characteristic of the membrane, as well as the oxygen transportation mechanism through the membrane will be investigated, experimental ....Novel CO2-stable oxygen transporting membranes for oxyfuel-based CO2 capture and utilization. Industrial carbon dioxide (CO2) emission is considered the main contribution to global warming. This project aims to develop a new class of oxygen transporting membrane (OTM) for CO2 capture and utilisation. To achieve this objective, the formation process and the unique characteristic of the membrane, as well as the oxygen transportation mechanism through the membrane will be investigated, experimentally and theoretically. This will advance the membrane technology in economically viable and efficient, clean energy applications.Read moreRead less
Artificial photosynthesis for solar fuel production. We aim to realise an artificial system that converts solar energy to hydrogen (artificial photosynthesis). The resulting device will be able to 'split' water into oxygen and hydrogen, whereas hydrogen can be further converted into electricity or heat (combustion).
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.
Open framework organic materials for CO2 capture and conversion. The reduction of CO2 emissions from coal-fired power plants is a technological challenge of global significance. This project will address this challenge by developing a unique system, based upon open framework materials, that will selectively capture CO2 from gas streams and then catalyse its transformation into industrially useful chemicals.