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Interactions of Electrically Forced Colloids in a Conducting Liquid

  • Full or part time
  • Application Deadline
    Monday, January 28, 2019
  • Competition Funded PhD Project (Students Worldwide)
    Competition Funded PhD Project (Students Worldwide)

Project Description

Application details

Reference number: WS04
Start date of studentship: 1st October 2019
Closing date of advert: 28th January 2019
Interview date: TBC

Supervisors

Primary supervisor: Francois Nadal
Secondary supervisor: Guido Bolognesi

Loughborough University

Loughborough University is a top-ten rated university in England for research intensity (REF2014). In choosing Loughborough for your research, you’ll work alongside academics who are leaders in their field. You will benefit from comprehensive support and guidance from our Doctoral College, including tailored careers advice, to help you succeed in your research and future career.
Find out more: http://www.lboro.ac.uk/study/postgraduate/supporting-you/research/

Full Project Detail

When submitted to electric fields, colloidal suspensions show transitions from ordered to disordered ‘phases’, depending on the phase/amplitude of the electric field, the nature of the electrolyte and the nature of the colloidal particles. The fine control of such properties can be exploited for the generation of new advanced functional materials with interesting optical properties (phase objects, diffraction gratings) or mechanical properties (composite materials, self-lubricant compounds). Electrically driven collective behaviours of colloids have been extensively studied in 2D (close to a plane), but very few 3D (bulk) studies have been performed so far.

The objectives of the project are (i) to experimentally investigate the bulk pair interaction of two colloids via optical tweezers, (ii) to model the combined electrical-hydrodynamic pair interaction based on hydrodynamic and electrophoretic considerations, (iii) to model the collective behaviour of an assembly of colloids using a simplified version of the pair-interaction model.

During the project, the candidate will engage in collaborations with other members of the Schools and the University. Experience in colloidal and interface science, fluid dynamics, data analysis/modelling is desirable although not a requisite.

Entry requirements

Applicants should have, or expect to achieve, at least a 2:1 Honours degree (or equivalent) in Physics or Mechanical Engineering or a related subject. A relevant Master’s degree and/or experience in one or more of the following will be an advantage: Applied Mathematics, Theoretical and Experimental Fluid Dynamics, Colloids and Interface Science.

Contact details

Name: Francois Nadal
Email address:
Telephone number: (+44) 1509227057

Funding Notes

Please note that studentships will be awarded on a competitive basis to applicants who have applied to this project and other advertised projects starting with advert reference ‘WS’ for the School of Mechanical, Electrical and Manufacturing Engineering.
If awarded, each 3-year studentship will provide tuition fees at the UK/EU rate and a tax-free stipend at the UK Research and Innovation rate. The UKRI stipend value for 2019/20 has not yet been announced but the value for 2018/19 was £14,777. While we welcome applications from non-EU nationals, please be advised that it will only be possible to fund the tuition fees at the international rate and no stipend will be available. Successful candidates will be notified by 26th March 2019.

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