![]() ![]() The development of high entropy ceramics follows the ‘configurational entropy stabilized single phase’ concept, which was first demonstrated for high entropy metal alloys in 2004. The University of Southampton is committed to sustainability and has been awarded the Platinum EcoAward.High entropy ceramics are novel materials with no less than four different cations or anions. The University has a generous maternity policy, onsite childcare facilities, and offers a range of benefits to help ensure employees’ well-being and work-life balance. We welcome all applicants regardless of their gender, ethnicity, disability, sexual orientation or age, and will give full consideration to applicants seeking flexible working patterns and those who have taken a career break. Degree Transcripts/Certificates to dateįor further information please contact: School of Chemistry is committed to promoting equality, diversity inclusivity as demonstrated by our Athena SWAN award.In Section 2 of the application form you should insert the name of the supervisor Andrew Hector Select programme type (Research), 2023/24, Faculty of Physical Sciences and Engineering, next page select “PhD Chemistry (Full time)”. ![]() If you wish to discuss any details of the project informally, please contact Professor Andrew Hector, Email: RequirementsĪ very good undergraduate degree (at least a UK 2:1 honours degree, or its international equivalent).Ĭlosing date: applications should be received no later than 31 August 2023 for standard admissions, but later applications may be considered depending on the funds remaining in place.įunding: This position is only open to students with UK residency, with an enhanced stipend available of £20,000 tax-free per annum for up to 3.5 years and tuition fees included.Īpply online: Search for a Postgraduate Programme of Study (soton.ac.uk). The project is funded by a CASE award for 3.5 years for UK-resident applicants with a first class or 2.1 degree in chemistry or a closely related subject. In addition, there will be opportunities for the student to undertake magnetic measurements on the materials at the Rutherford Appleton Laboratory in Oxfordshire, and to work at the premises of Platina Biomed which are close to the university. The project combines synthesis with detailed in-house characterisation using the excellent diffraction and microscopy facilities available in the School of Chemistry. Partnering with Platina Biomed, this project will use a range of typical inorganic materials synthesis methods to produce nanoparticles of these materials at a size scale useful for medical imaging technologies. For example, see for an account of synthesis and properties from a catalysis perspective. High entropy alloys are solid solutions of several metals and hold tremendous potential for catalysis, energy storage, and biomedical applications. ![]() The project is an opportunity to develop a broad range of experimental and data analysis skills in an active materials group in Southampton, at the premises of the industry partner and in a national central facilities laboratory. We seek a student with an interest in synthetic inorganic materials chemistry for a project to produce and characterise a new group of nanomaterials. Supervisory Team: Andrew Hector and David Smith Project title: Inorganic materials chemistry ![]()
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