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High-resolution resonant inelastic X-ray scattering uncovers the role that oxygen plays in voltage fade in next-gen battery materials
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Shining a light on the impact of structural deformation in next generation halide perovskite devices
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An old crystallography technique gains renewed appreciation
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Soft X-ray phase XMCD offers a new way to explore nanoscale magnetic textures
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With two endstations and a range of sample environments, B07-B is a versatile beamline offering XPS and NEXAFS over an extended pressure range.
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A combination of cryoSIM and cryoSXT offers a new perspective on viral assembly
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A focus on developing lead-free, high temperature piezoelectric materials
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Observing the gut’s most abundant viruses for the first time using eBIC
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Transmission electron microscopy studies demonstrate successful indium selenide nanoribbon synthesis and polymorphism control
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The I21 beamline has contributed significantly to the understanding of high-temperature superconductors.
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The innovative design of Diamond’s Dual Imaging and Diffraction (DIAD) beamline provides valuable opportunities for biomedical materials science
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Scientists at The Institute of Cancer Research in London used cryo-Electron Microscopy (cryo-EM) at eBIC to investigate the architecture of tankyrase filaments.
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Using different synchrotron science techniques to uncover new insights into batteries
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Multiple beamlines at Diamond reveal different insights into the pioneering research area of nanomedicine
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Synchrotron studies will help build safe hydrogen energy infrastructure
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State-of-the-art synchrotron techniques probe the secrets of viral occlusion bodies
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Synchrotron studies that small clusters of atoms may be the most active species for some catalytic reactions
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Offline SAXS studies explore the morphology of new CO2-derived thermoplastic elastomers
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Researchers from the University of Manchester used Diamond's B22 and I11 beamlines to enable the visualisation of Zr-MOFs at the atomic level
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Researchers have used single particle cryo-EM at eBIC to provide the first structural basis of auxin transport by PIN proteins
