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factors influence the demand and deployment to maintain thermal comfort and meet regulatory requirements. This project will capitalise on the emergence of AI tools to develop a novel control system based
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to develop new antibacterial metal complexes which kill bacteria under visible light. Project details: Antimicrobial resistance is one of the key challenges of the modern times. We believe that photochemistry
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to S. aureus infection. Building on work currently being performed in the group, you will develop novel long-read single-cell RNA sequencing approaches using Oxford Nanopore Technology for accurate cell
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://www.virtema.fi/ for my recent works in this direction. The concrete direction the student takes is flexible. One exciting direction is to develop the theory of quantitative hyperproperties which can express, e.g
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, the project will develop models to analyse the interactions and potential impacts of these emissions at various altitudes, including contrail formation and growth. Industrial Partner This project offers a
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be found here. Project The green industrial futures depend on a sustainable and resilient resource supply chain to achieve the net zero goal. This project aims to develop a new approach to future proof
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GIF CDT: A Novel Gas/Liquid contactor for Direct Air Capture and industrial CO2 capture technologies
solvent physical properties, such as density, viscosity and surface tension. Develop engineering guidelines for process optimisation and scale-up with an open-access solvent supported by new packing data
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forecasting To develop new improved inventory management solutions for the agri-food sector that take into account their unique circumstances (short shelf-lives and quality deterioration over time, and long
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. World-Class Environment: Develop your research expertise in a world-class tribology group. Industry Experience: Gain valuable industry experience with a global leader. Interested? Contact Prof. Rob Dwyer