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/Python).Further information can be found at:https://www.findaphd.com/phds/project/?p185925If you are interested in this opportunity and would like to know more about it, please contact me via email at
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£20,780 for 2025/26). Direct energy deposition with a laser beam (DED-LB) additive manufacturing has generated substantial interest in diverse industrial applications due to its potential for fabricating
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in health and wellbeing. This practice-based research project will align with the University’s civic mission and its research priority on Arts and Health and will be embedded in the development of a
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PhD Application". Emails should arrive no later than 1 September 2025. Applications may close early if the position is filled before this date. Please note that any offer of funding will be conditional
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and establish their potential remain to be answered, both in terms of enabling technologies for distributed sensing and the techniques that exploit it. The focus of the PhD project is to improve our
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mitigating these statutory micropollutants. Following the monitoring, it is also essential to develop enhanced NbS strategies that target micropollutant removal and remain compatible with other ecological and
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to its significant contribution to the poleward heat transport. It is now well established that any significant weakening of the AMOC would induce a significant cooling/warming of the Northern/Southern
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objects, by embedding them into a 2 or 3-dimensional space through a representation learning algorithm, has been widely used for data exploratory analysis. It is particularly popular in areas such as
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modification(s). It is expected that such unmodified polymers would be inherently biodegradable. Developing novel blends of polymers. Such blends could consist solely of natural unmodified polymers, or mixtures
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that by combining electrospray deposition (ESD) with scanning tunnelling microscopy (STM) it is possible to deposit intact conjugated polymers in ultrahigh vacuum (UHV) and to acquire unprecedented sub