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Field
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This PhD studentship is an exciting, fully funded opportunity to work as part of an internationally renowned scientific and engineering team to develop a new innovative technology to meet and
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project introduces a new way of studying these interactions, using a state-of-the-art optical sensor developed at the University of Exeter. This sensor can measure fast changes at the single peptide level
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. The start date is 1st October. The need to meet increasing global energy demand and at the same time urgently address 2050 net zero carbon emissions targets is placing fusion energy in the spotlight. Two new
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the use of IT and will be able to demonstrate their competency in word processing, spreadsheets, databases and email packages. This is a varied post which requires excellent organisational skills and
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University that focuses on the development, integration and evaluation of novel aircraft and propulsion technologies. The team at Cranfield University has extensive experience on the development and
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for new drugs to treat AMR pathogens Pseudomonas aeruginosa and Mycobacterium abscessus in the lungs of cystic fibrosis (CF) patients. Mycobacterium abscessus is intrinsically resistant to many drugs
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faculties at the University of Southampton and will leverage a new rapid Antimicrobial Susceptibility Test (iFAST), developed at Southampton in Electronics and Computer Science, to accelerate phage therapy
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Improved physical modelling techniques for new high capacity floating offshore wind turbines DoS: Dr Martyn Hann ([email protected] , tel.: +44 1752 586130) 2nd Supervisor: Dr Sanjay
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-vibration problems came to light, indicating that modern, light-weight, low-frequency and lightly-damped structures have to be designed with new standards, grounded on a theoretical framework for human
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analysis and uncertainty quantification. The output would not only provide a tool for optioneering, but would also help prioritise new avenues for research and serve as a testbed for the design of tritium