5 episodes

It was here in Oxford, in the 1600s, that great minds such as Hooke, Boyle, Willis and Wren laid the foundations of modern experimental science. Like their famous forebears, today's Oxford scientists continue to undertake world-leading research: making fundamental new discoveries and applying cutting-edge knowledge to the major societal and technological challenges of the day. The research happening right now in the Department of Chemistry is uniquely poised to have a major impact on everything from our health to our energy sources - in other words, it is enabling our shared future. To read more about our research, please visit http://www.chem.ox.ac.uk/researchthemes.asp.
This series focuses on a potential solution to the energy crisis: using artificial photosynthesis to generate 'clean' hydrogen fuel from sunlight and water. This interdisciplinary research incorporates elements of chemistry and biology, and aims to mimic and improve processes used in nature by green plants and pathogenic bacteria.
Armstrong Group: http://armstrong.chem.ox.ac.uk/
Solar Fuels: http://solarfuels.tumblr.com/
This research was also featured at the Royal Society Summer Exhibition 2013 http://sse.royalsociety.org/2013/exhibits/solar-fuels/

Chemistry for the Future: Solar Fuels Oxford University

    • Education

It was here in Oxford, in the 1600s, that great minds such as Hooke, Boyle, Willis and Wren laid the foundations of modern experimental science. Like their famous forebears, today's Oxford scientists continue to undertake world-leading research: making fundamental new discoveries and applying cutting-edge knowledge to the major societal and technological challenges of the day. The research happening right now in the Department of Chemistry is uniquely poised to have a major impact on everything from our health to our energy sources - in other words, it is enabling our shared future. To read more about our research, please visit http://www.chem.ox.ac.uk/researchthemes.asp.
This series focuses on a potential solution to the energy crisis: using artificial photosynthesis to generate 'clean' hydrogen fuel from sunlight and water. This interdisciplinary research incorporates elements of chemistry and biology, and aims to mimic and improve processes used in nature by green plants and pathogenic bacteria.
Armstrong Group: http://armstrong.chem.ox.ac.uk/
Solar Fuels: http://solarfuels.tumblr.com/
This research was also featured at the Royal Society Summer Exhibition 2013 http://sse.royalsociety.org/2013/exhibits/solar-fuels/

    Introduction to Solar Fuels

    Introduction to Solar Fuels

    In an 'Oxford tutorial' style podcast, Professor Fraser Armstrong introduces the concept of artificial photosynthesis: coupling a light harvesting material with a fuel producer in order to generate storable energy from sunlight.

    • 2 min
    Enzymes as Fuel Producers

    Enzymes as Fuel Producers

    Growing energy demand worldwide is a crucial challenge for chemists. Suzannah Hexter, Armstrong Group, shows how, with the help of enzymes, the principles of photosynthesis may be artificially exploited and improved to provide a clean energy resource.

    • 4 min
    Photosynthesis in Nature

    Photosynthesis in Nature

    Dr Alison Foster, a former chemist and Senior Curator at the University of Oxford Botanic Garden explains the principals of natural photosynthesis that the Armstrong Group is trying to mimic in the lab.

    • 4 min
    Artificial Photosynthesis - From Photon to Fuel

    Artificial Photosynthesis - From Photon to Fuel

    Andrea Bachmeier, a DPhil student in the Armstrong Group, is helping to create a fully integrated artificial photosynthesis (APS) system which could be much more efficient at turning sunlight into fuel than living systems.

    • 12 min
    Conclusion: Inspired by Nature

    Conclusion: Inspired by Nature

    The current energy crisis is a time of intense challenges but also of opportunities for fantastic science and innovative ideas. Chemists, along with partners in other scientific disciplines, in policy, in industry, in advocacy, and beyond, all have a crucial role to play. Do you have any bright ideas?

    • 1 min

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