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(SI-ATRP) and used to organise chromophores in 3D. You will develop solution-processing routes for the production of quantum optical materials, and design sensors for use in early detection of cancer
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resulting impedance measured over a range of frequencies - has previously been applied for detecting cervical pre-cancers. We aim to adapt the EIS for use in oral tissues, specifically to identify potentially
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(SI-ATRP) and used to organise chromophores in 3D. You will develop solution-processing routes for the production of quantum optical materials, and design sensors for use in early detection of cancer
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be realized by the objectives of (i) acquiring knowledge to implement potential and non-linear field exploration techniques; (ii) create a data catalogue of 3D magnetic mapping of AR(s). The student
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campaigns including programmed screening or Bayesian optimisation. You will characterise the resulting materials, in terms of their properties and performance for an intended application. Sustainability will
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experimental physics. The primary objectives are: 1. Establish a Robust Evidence Base: Conduct a large-scale, mixed-methods study across UK schools and colleges. This involves surveying students in Years 12 and
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. Collaborating within a team, you will leverage your extensive manufacturing experience to identify, evaluate, and implement established and emerging technologies. Your key objective will be to develop robust and
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chatbots in other chronic conditions (e.g., Type 1 Diabetes Mellitus), this PhD project aims to develop the first developmentally appropriate chatbot for YP with IBD. Objectives: To gather the views of YP
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-level control objectives, enabling robots to plan, explain, and adapt in unstructured settings. Target applications span robust grasping, non-prehensile manipulation, and deformable-object handling
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The Spatial Poetics of Objects: A digital enquiry into domestic objects in museum collections