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are used in beauty and hair care formulations to provide functionalities including pH, stability and viscosity control, sensory profile, texturing and structuring. In this project, we are seeking to develop
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approach utilises the inherent need of the tumour for extracellular arginine and to use this to deliver a toxic moiety to the tumour; in other words, we will use the arginine structural motif as a targeting
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the “Dialling up Performance for on Demand Manufacturing” Programme Grant, which will place the student within an active and supportive team of 9 other PhD students, 15 postdoctoral researchers, 18 world-leading
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providing world-class facilities in a supportive, innovative, inclusive and interactive learning environment. Based at Cranfield University, a global leader in aerospace research, the project benefits from
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. It is essential that they are knowledgeable in current behaviour change science and techniques and specifically have experience of designing topic guides and administering in-depth, semi-structured
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In the process of laser shock peening (LSP), metallic structural components are hit by controlled laser pulses. The sudden vaporisation of material at the structural surface creates large magnitude
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formulations to provide functionalities including pH, stability and viscosity control, sensory profile, texturing and structuring. In this project, we are seeking to develop the next generation of biopolymer
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the action of electric and magnetic fields, on the other hand, they can create extremely shape-shifting structures Project aims: The main challenge of this project is to synthesise suitable polymeric
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research and teaching expertise in the related areas; (b) preferably have at least two years of postdoctoral research experience; (c) have demonstrated promise of a high level of creative ability in
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materials interact with the body. This project addresses that gap by engineering a 3D-printed full-thickness skin model that mimics the aging microenvironment, enabling more predictive evaluation of novel