8 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.
Not all chemistry takes place in test tubes. This series focuses on the amazing machines, from hand-blown glass to ultracold molecular beams, used by Oxford chemists every single day.

Chemistry for the Future: Incredible Machines 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.
Not all chemistry takes place in test tubes. This series focuses on the amazing machines, from hand-blown glass to ultracold molecular beams, used by Oxford chemists every single day.

    • video
    X-Ray crystallography: revealing the shape of molecules

    X-Ray crystallography: revealing the shape of molecules

    Dr Richard Cooper on x-ray crystallography - an incredibly powerful technique for determining the 3D structure of crystals.

    • 5 min
    • video
    The Zeeman Decelerator and ultracold chemistry

    The Zeeman Decelerator and ultracold chemistry

    The Zeeman Deceleator is used to do ‘ultracold chemistry’ – slowing down molecules in order to study reactions. Katrin Dulitz shows off her amazing machine.

    • 2 min
    • video
    Incredible Machines: Conclusion

    Incredible Machines: Conclusion

    Dr Ashley Shepherd concludes the Incredible Machines series by explaining what makes her the most excited about working as a scientist in the Department of Chemistry.

    • 4 min
    • video
    Mass spectrometry: how does it work, and why should you care?

    Mass spectrometry: how does it work, and why should you care?

    From cutting-edge cancer research to sustainable fish farming, Dr James McCullagh explains the importance of mass spectrometry.

    • 13 min
    • video
    Glassblowing: a beautiful, crucial, trade

    Glassblowing: a beautiful, crucial, trade

    Watch glassblower Terri Adams in action as she creates scientific tools from the flames.

    • 8 min
    • video
    Inside NMR Spectroscopy

    Inside NMR Spectroscopy

    Dr Tim Claridge takes apart an NMR machine to show us how this technique is used in research with application in human health and beyond.

    • 8 min
  • © Oxford University

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