£1.4 million to make car fuel from thin air

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The researchers hope the porous materials will be used to line factory chimneys to take carbon dioxide pollutants from the air, reducing the effects of climate change. The process will be powered by renewable solar energy. Dr. David Fermin, from the University of Bristol, said: "Currently, there are no large-scale technologies available for capturing and processing CO₂ from air. The fact is that CO₂ is rather diluted in the atmosphere and its chemical reactivity is very low. By combining clever material design with heterogeneous catalysis, electrocatalysis and biocatalysis, we aim to develop an effective carbon neutral technology." The Bath-Bristol collaboration brings together scientists from a range of disciplines, with researchers from Bath's Institute for Sustainable Energy & the Environment (I-SEE), the School of Chemistry at the University of Bristol, and the School of Life Sciences at the University of the West of England. Dr Ioannis Ieropoulos, Bristol Robotics Laboratory, added: ?One of the great advantages of this project is that it will attempt to exploit the natural abilities of photo-heterotrophic microorganisms in utilising light to fix CO₂, which in turn will allow the production of biomass to be used as fuel and electricity or hydrogen, as required. Dr Frank Marken, Senior Lecturer in Chemistry at Bath, said: ?Current processes rely on using separate technology to capture and utilise the CO₂, which makes the process very inefficient.