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wider ecosystem structures. The findings will generate actionable insights for policymakers, incubators, development organisations, and SMEs by identifying the ecosystem features that most effectively
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-wzn23), this project will combine advanced synthetic strategies with reactivity studies, detailed physical characterization and computational studies to elucidate electronic structures. Together
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structured datasets. These will support AI applications in paediatric care, enabling early detection of conditions and personalised treatment planning. A human-in-the-loop (HITL) approach will ensure clinical
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components are designed and produced. This PhD project focuses on Molten Metal Jetting (MMJ), an emerging metal 3D printing technology that enables the precise fabrication of multi-material metallic structures
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measurements of nuclear parameters via the hyperfine structure and isotope shift. The project is based at facilities where The University of Manchester and our national and international collaborators, from
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supported by the Enhanced Composite and Structures Centre at Cranfield. About the sponsor We will work in collaboration with Cambridge Nanosystems, which is a world leading high quality, high performance
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required): • Plant physiology, root biology or plant–environment interactions. • Experimental approaches to studying internal plant environments or spatially structured biological processes. • Imaging
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that respects both user preferences and legal requirements. Your research will create it. What makes this different This isn't a typical PhD. Through structured industrial secondments (several weeks yearly
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the orientation of a crystal affects its response to dynamic high pressure such as that produced through impact and shock compression. Building upon earlier research into BCT structures, this project will
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they can be exposed to both microwave and laser fields to probe their energy structure, or to carefully tailored magnetic fields to reveal their behaviour due to gravity. Laser-cooled beryllium ions trapped