Doctoral research students in LITAC will develop the ability to pursue research that advances the disciplines of textile technology, textile and fashion design, polymer science, and colour science and technology to find solutions to global challenges using advanced research tools and techniques. They will learn how to derive implications from their research results and communicate their findings to policy makers, practitioners, academics and industrial partners.
A number of studies have clearly established that textile surfaces act as a vector for the transmission of infectious agents. There is therefore an increased demand for antibacterial textiles in a wide variety of settings such as the healthcare sector and performance apparel. A crucial aspect of the antibacterial agent is that it does not drive further antibacterial-resistant strains and is low cost, if antibacterial textiles are to be used in certain applications such as single-use items.
In this research we will use the emerging concept of antimicrobial photodynamic inactivation (aPDI) and its clinical counterpart photodynamic therapy (PDT). Based on the principle that certain organic compounds (photosensitisers) can induce cell death (cytotoxicity) when exposed to light in the presence of oxygen. Bacteria, fungi, and viruses are particularly susceptible to aPDI/PDT unlike healthy eukaryotic cells.
We will consider likely photosensitisers, initially focusing on molecules that are made from readily available precursors through well-established manufacturing techniques (ensuring a relatively low manufacturing costs). Devising processes to ensure commercial viability of the textile devices.
The successful applicant will join the Leeds Institute of Textiles and Colour (LITAC), a collaborative international research Institute that applies academic expertise, working together with external partners, both industrial from across the world, to address global challenges and sustainable development in textile and colour industries. We are focused on the development of innovative science and technology, materials, methods and processes. Technology-driven sustainable development is a major part of our work, hosted by the School of Design at the University of Leeds.
The School of Design is a world leading research centre with a focus in creativity and developing innovative materials and manufacturing solutions with interdisciplinary researchers and industrial partners.
- Applicants must not have already been awarded or be currently studying for a doctoral degree.
- Applicants must live within a reasonable distance of the University of Leeds whilst in receipt of this scholarship.
How to apply
First, apply for a research place of study, through the online application form. Please state clearly that the funding you wish to be considered for is “LITAC - Developing Antimicrobial Textiles Through Photodynamic Inactivation” with Dr Rigout, Dr Broadbent and Prof O’Neill as your proposed supervisors. You will be expected to meet our eligibility criteria for PHD candidates.
In order to be considered for the Studentship you must submit all the required supporting documents for your application for PhD study.
Please note that you will not need to submit a Research Proposal as part of your application for this project. In place of a Research Proposal please can you submit a statement which convey’s your motivation and enthusiasm for the project as outlined in the Scholarship advert. See stage 2 below.
Once you have received your student ID number (a 9-digit number) move onto stage 2.
Apply for the LITAC Project - ‘Developing Antimicrobial Textiles Through Photodynamic Inactivation’ by completing the Scholarship Application Form. You must submit your scholarship application by 17.00 p.m. on 4th of January 2024.
The scholarship application includes the supporting statement referenced in Stage 1. This statement should demonstrate your suitability for your intended PhD Project and not be longer than two pages. The statement should specifically include details on your interest in the project and why you have chosen to apply for this in particular. The statement should also include how you will apply your current skills, knowledge and experience to undertake the PhD and the approach you would take to develop the project.
As an international research-intensive university, we welcome students from all walks of life and from across the world. We foster an inclusive environment where all can flourish and prosper, and we are proud of our strong commitment to student education. Across all Faculties we are dedicated to diversifying our community and we welcome the unique contributions that individuals can bring, and particularly encourage applications from, but not limited to Black, Asian, people who belong to a minority ethnic community, people who identify as LGBT+ and people with disabilities. Applicants will always be selected based on merit and ability.
The applicant will have achieved (or expected to achieve) a minimum of a 2:1 in Chemistry, Biochemistry, Colour Chemistry or a related subject.
The candidate will also have a particular interest in organic molecule/colorant synthesis, the processing of textiles (in particular the wet processing, e.g. coloration), performing antimicrobial testing, and performing physical testing of textile substrates.
Applicants who are uncertain about the requirements for this research degree course are advised to contact Dr Muriel Rigout prior to making an application.
English language requirements
The minimum English language entry requirement for research postgraduate research study in the School of Design is an IELTS of 6.5 overall with at least 6.0 in each component (reading, writing, listening and speaking) or equivalent. The test must be dated within two years of the start date of the course in order to be valid.
For further information related to the application process please email the Faculty PGR Admissions Team at [Email Address Removed]
For further information related to the project please contact [Email Address Removed]