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outputs for academic and public dissemination, and contributing to exhibitions, screenings, and other events. Collaborating with team members and external partners across higher education, industry, and
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to deliver industry-relevant tools that enable optimal design and operation of hydrogen technologies in real-world application. The successful candidate will work at the intersection of multi-disciplinary
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to conventional lab-based XPS instruments, to make it a widely accessible research tool for academia and industry. You will have responsibility for adapting ultrahigh vacuum equipment to accommodate the reaction
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external research efforts, including partnerships with industry. Key responsibilities include: • Supporting the setup and ongoing management of histology facilities, including paraffin and cryo
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events. Collaborating with team members and external partners across higher education, industry, and civil society. Upholding best practice in research conduct, ethics, and data management. Person
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Chen, based in the Department of Chemistry and the Materials Innovation Factory. Key responsibilities and duties: ¿ Design, synthesise and characterise new smart sustainable polymers and/or polymer
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, with the ability to take full advantage of the resources in the James Watt Nanofabrication Centre and the research laboratories of the University of Glasgow and its partners in industry and academia. A3
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studies within the hydrogen research hub (HI-ACT) funded by EPSRC. The project seeks to deliver industry-relevant tools that enable optimal design and operation of hydrogen technologies in real-world
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Engineering or in an area related to mechanics and soft robotics. 2. Good knowledge and research experiences in manufacturing of soft devices and granular systems for morph shaping. 3. Proficiency in
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. These platforms will not only drive the next phases of R&D in solar cell and optoelectronic materials development but could also be incorporated as future in-line diagnostic tools on manufacturing lines. We