Our research projects are extremely varied but they are all geared towards the life science interface.
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3D image processing and particle tracking in low contrast live-cell images
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A New Method for Detecting known components in Multi-level Raman Spectra
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Chemical and Optical Characterisation of Nanomaterials in Biological Systems
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Chromatically-corrected, high-efficiency, multi-colour, multi-plane 3D imaging
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Developing methods for imaging the microvasculature using contrast enhanced ultrasound
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Development of ultrafast laser inscribed optofluidic devices for biomedical and point-of-care sensing applications
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Development of pneumatically driven Micro-grippers for micromanipulation
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ESRIC
Alison Dun |
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Exploitation of the scatter from single microbubbles for ultrasound contrast imaging
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Exploring the dynamics of intracellular signalling of MAP kinase pathway proteins using fluorescent-tag
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Imaging large cohorts of single ion channels and their activity
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Isolation and culture of single microorganisms using optical micromanipulation technology
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Microfluidics for Synthetic Biology
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Microporous Media for scaffold creation
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Microtechnologies for Clinical Diagnosis of Prostate Cancer
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Novel Cancer models: investigating mechanisms and treatment
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Optical Techniques for cell study
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Particle tracking in 4D
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Protein recovery from Distilleries Co-products
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PTEN tumour suppression
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Spectral conversion of light for enhanced microalgae growth rates and photosynthetic pigment production
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Studying the regulation of the activity of the tumour suppressor and lipid phosphatase PTEN
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