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many industrial products, including building materials (e.g., cement), energy materials (e.g., batteries and fuel cells), consumer care and food products, and medicine. Recent advances in colloidal-gel
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many industrial products, including building materials (e.g., cement), energy materials (e.g., batteries and fuel cells), consumer care and food products, and medicine. Recent advances in colloidal-gel
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holds substantial potential for hydrogen production and energy storage through battery systems. The project will explore the following areas: Energy Security Implications: Examine how offshore wind power
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multidisciplinary team to electrochemically characterise new cathodes for lithium-ion batteries. You should have a PhD in chemistry or materials science and a track record of electrochemical or battery research
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the potential to be used in a variety of novel applications outside its original use in the minerals industry, for example in the recycling of plastics or battery materials. However, there are many aspects of its
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Underserved Communities Taking the energy transition forward in emerging and new frontier countries: complementary innovations in off-grid systems, multi-purpose energy hubs, battery repurposing and the
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Photovoltaic and Batteries) to large scale seasonal demand management and storage. The project team currently includes Professor Mark O'Malley (Leverhulme Professor), Professor Janusz Bialek (a part-time
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implantable glucose sensors. Traditionally, these IMDs are battery-dependent with limited life span hence surgery is required to replace the battery, which is the biggest source of distress in patients. A
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and machines for physical lab-scale experiments, the researcher should be familiar with testbench setup (e.g., battery emulator and inverter/converter) and machine tests. Relevant experiences will be
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to industry, with current applications including rail monitoring, sensor placement optimisation, protein folding, and battery design. It has a long-term interest in the application of it's know-how and IP