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or crosslinking. Work with Surrey has developed many aspects of the current understanding about how this occurs at the molecular scale (eg: https://doi.org/10.1016/j.porgcoat.2022.107065 , doi.org/10.1021
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Institute in Guildford (University of Surrey) relevant to the project will be available to the successful candidate. The student will gain a wide range of transferable skills through the University
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associated with digitalisation of bioenergy. Due to the complex feedstock characteristics of biomass and organic wastes, current models generally have poor predictive capabilities. This PhD project will
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candidates to market. However, amorphous pharmaceuticals are difficult to control as the current understanding of these materials is limited. One reason for this is that the amorphous phase is inherently
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-clinical to clinical studies. The proposed project is part of an ongoing research collaboration between Dr Carina Dunlop (University of Surrey) and Prof. Gianne Derks (University of Leiden, Netherlands) with
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(subject to review) and University of Surrey fees met for duration of studentship. Funded by the University of Surrey and AWE. Closing date for applications Friday 1 July 2024 Application enquiries