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are expected to provide insights into the fundamental dynamics of molecule-plasmon coupling and contribute to the development of molecular quantum light sources, paving the way for advancements in nanoscale
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). Design and fabricate patterned surfaces optimised for enzyme immobilisation. Assess synergistic antibiofilm efficacy under static and dynamic (flow-based) biofilm models. Apply advanced microscopy, protein
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molecular techniques (e.g. qPCR, metabarcoding) to characterise pathogen life cycles, host responses and environmental tolerances. Fieldwork will be conducted at selected coastal sites to assess natural
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structures affecting their fundamental modes within conventional sensing limits. As per published research, these effects are mostly investigated under dynamic loads on different boundary conditions
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at the molecular scale, even breaking covalent bonds. Indeed, mechanical force is a formidable source of energy that, with its ability to distort, bend and stretch chemical bonds, is unique in its ability to promote
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researcher will study the temporal and spatial variation of ARG in urban and rural waterways using culture-dependent, culture-independent molecular biology and bioinformatic approaches to detect/quantify ARGs
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, interdisciplinary research group, including a postdoc, DTP students, and technicians. Training will include fieldwork, bird handling, ringing, lab techniques in molecular biology, microbiome sequencing
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central question in evolutionary biology and has profound implications for predicting host–pathogen dynamics in changing environments and biodiversity conservation. In this project, you will investigate
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to “trick” resistant strains into becoming drug-sensitive. This interdisciplinary research combines synthetic biology, molecular biology, and biochemical engineering to pioneer sustainable, non
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critical resistance dynamics. The project will use molecular microbiology and bioinformatics to compare traditional indicators with metagenomic data, assessing the validity of current monitoring practices