About the Project
In this project we will develop an innovative technique using an optical tweezer to generate a localized shear flow in a crystallizing solution, thus triggering nucleation in a known, directly observable position. We will then use light scattering to measure the structure and shape of the growing nucleus, interpreted through refining computational models of the nucleus against the measured data.
This challenging project will bring the PhD candidate excellent research experience across crystallization processes, cutting-edge optical control and measurement, and data analysis using computational modelling.
Research students are also registered for the Postgraduate Certificate in Researcher Development (PGCert), which is a valuable supplementary qualification that develops a student’s skills, networks and career prospects. There will also be opportunity to gain teaching experience and to take part in the Department’s extensive outreach activities as part of the ReallySmallScience public engagement team.
Information about the host department can be found by visiting:
Candidates should be strongly motivated to undertake multidisciplinary research in a highly collaborative environment. You should have or be about to obtain a good degree (at least 2.1) in chemical engineering, physics or a related subject, with excellent laboratory, data analysis and communication skills. Experience in optics, crystallization processes and/or computational data analysis would be an advantage.
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