88 high-performance-quantum-computing-"https:"-"https:"-"https:" uni jobs at Manchester Metropolitan University
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Programme Cycle to Work scheme Various other rewards and benefits. How To Apply: Your application must include a supporting statement which provides examples of how your experience and skills match each
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technology sector—we recently achieved TEF Gold and an OFSTED Outstanding rating. The Department of Computing and Mathematics is a thriving academic community of over 80 staff and 2,500 students. We have
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energy consumption across campus. They drive the delivery of the University's carbon management plan, carry out annual Energy Performance Certificates (EPCs), and project-manage energy-saving initiatives
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University's Key Performance Indicators, league tables, the National Student Survey and Graduate Outcomes. You will undertake an end-to-end reporting approach from sourcing and processing data, through
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: Lead and inspire a high-performing Talent and Recruitment team, ensuring optimal structure, capability, and professional development. Design and deliver innovative recruitment strategies that position
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continues to be reflected in consistently high satisfaction ratings from both employers and apprentices. Over the past decade, our programme has grown significantly. We now work with over 700 employers—from
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, collaborative and inclusive team. With our Library Transformation Programme underway, including a new library building, you'll have the opportunity to shape the future of our service. Get in touch If you are
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role in developing and managing placement opportunities with sports organisations, high-performance environments, and health providers, ensuring our students are well prepared for their future careers
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applications, solutions and services within the SRM team remit, ensuring high performance, reliability and security. Lead on the design, development, delivery and maintenance of advanced customisations
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to the development of safe, high-performance, and manufacturable energy storage technologies. D2: This PhD project will develop novel additive manufacturing strategies for producing rechargeable zinc-air batteries