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molecular biology, quantitative imaging and biophysical approaches to investigate cell shape changes in cultured cells and in vivo. Current projects in the lab include investigating the regulation
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-value reinforcements in their short and randomly aligned form. A key challenge to the effective reintegration of recycled carbon and glass fibres into high-performance products lies in achieving scalable
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respond over time (e.g. changing shape), controlled by the arrangement of differential materials within them. The goal of this project will be to develop responsive 4D-printed biomaterial devices for drug
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-printed functional devices interact with their environment, responding to stimuli (temperature, light, etc.), and “4D-printed” devices respond over time (e.g. changing shape), controlled by the arrangement
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mechanisms that influence PFAS adsorption The outputs of this project will inform decision-making stakeholder teams within Anglian water to form short- and medium-term PFAS abatement strategies. Entry
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are encouraged (laura.winchester@psych.ox.ac.uk ). You will need to apply for this studentship via the main University online graduate application form, and pay an application fee of £20. The application form, all
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rest of the world), but they will normally be required to cover the difference between Home and International tuition fee rates. Application process Please send the completed application form
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) Applications are invited for a three-year PhD studentship. The studentship will start on1st Jan, 2026. Project Description Glioblastoma (GBM) is the most aggressive and treatment-resistant form of brain cancer
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will investigate how perinatal risk factors such as preterm birth shape neurodevelopmental pathways associated with psychotic-like experiences (PLEs) across childhood, adolescence, and early adulthood
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are eligible to apply. If you are unsure of your fee status, please complete this form . Equality, Diversity and Inclusion The Nottingham BBSRC DTP is committed to equality, diversity and inclusion in its