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Our Stories

Our Stories

  • Proteins with Professor Juliet Gerrard

    Everyone has heard of proteins: they are something you need in your diet. But why? Here we will look at the very many roles that proteins play in the cells of our body, and have a peak at the beautiful shapes that proteins adopt to enable them to carry out these functions.

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  • Quantum Chemistry with Dr Nicola Gaston

    Atoms are the building blocks of all matter - we all learn that much at school. It turns out that simply knowing which atoms a piece of material is made from is not enough for you to predict how that material behaves; to do that you have to understand how the atoms interact with each other. We calculate these interactions using the laws of quantum mechanics, which describe the individual electrons that make up a chemical bond - this process is sometimes referred to as Quantum Chemistry.

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  • Microfluidic Devices with Dr Geoff Willmott

    At present, there is tremendous commercial interest in microfluidic devices, including so-called “lab on a chip” devices. It is hoped that such technology will trigger a revolution in medical diagnostics and other lab processes, equivalent to what has happened to consumer electronics over the past three decades. Already, consumers are familiar with cheap, reliable, hand-held diagnostics for pregnancy and blood glucose levels in diabetics.

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  • Transition Metals with Dr Shane Telfer

    We are interested in all aspects of supramolecular chemistry and functional materials that involve transition metals. Our research is underpinned by molecular design and synthetic chemistry.

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  • Self-assembly with Deputy Director Simon Brown

    Simon's group focuses on building small electronic devices from nanoparticle building blocks, using self-assembly techniques. The aim is to find ways of making things like sensors and transistors that could be scaled up for mass production, and at the same time to understand the basic physics of the devices.

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  • Modelling Nano-Devices with Prof Ulrich Zuelicke

    I develop theoretical models for electronic devices that are smaller than a thousandth of the width of a human hair. Nano-size transistors, wires, capacitors etc develop new characteristics, especially because quantum physics governs the flow of electric current through them.

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  • Electronic and Optical Materials with Dr Ben Ruck

    I produce and study the properties of advanced materials with potential applications in novel electronic devices such as next-generation computer memories.

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