PhD Studentship in Sustainable Rubber Chemistry and Technology at University of Warwick
Job Description
Funding Source: Industry
Eligibility: Available to eligible Home fee status and UK domicile EU students
Start Date: Ongoing
Course: MPhil/PhD
Project Overview
Rubbers are ubiquitous materials in modern society and have played important roles across industries. As the key component to connecting the vehicle to the road, the performance of the tyre directly determines the fuel efficiency, wear emission, and safety. The development of sustainable and high-performance elastomers is a key step towards net-zero future. We are seeking an enthusiastic and highly-motivated polymer researcher to investigate novel dynamic rubber technology and advanced rheology characterisation and develop an in-depth understanding of rubber circularity.
This is an excellent opportunity to enhance your career within a research-intensive, and commercially focused environment. Sponsored by a global synthetic rubber industry, you will be working at the advanced rubber laboratory at the International Institute for Nanocomposites Manufacturing (IINM) and WMG, University of Warwick https://warwick.ac.uk/fac/sci/wmg/research/materials/nanocomposites. You will be able to gain systematic trainings on polymer synthesis, nanocomposites processing and advanced characterisation; as well as keep close communication with industries to develop transferable technologies to address the sustainable rubber challenges.
INFORMAL ENQUIRIES
Please ensure you meet the minimum requirements before filling in the online form. As part of the application, please supply your CV, grades and qualifications (achieved and/or expected), and personal statement on why you think you should be considered for this position to Professor Wan, chaoying.wan@warwick.ac.uk.
Essential and Desirable Student background Criteria
The ideal candidate will hold (or expect to hold) a 1st or upper 2nd class MSc / MChem / BSc or equivalent, understand and have experience in polymer synthesis and structure characterisation, in particular rubber processing and rheology characterisation,
Funding and Eligibility
Funding Notes
Funding is available for UK/EU for 3 years.
Key Information
Funding Duration: 3 years
Stipend: £18,622
Supervisors: Chaoying Wan