4D-Printed Adaptive Structures with Controlled Shape Change and Multifunctional Response
School: School of Science and Technology
Study mode(s): Full-time
Starting: 2026
Funding: UK student / EU student (non-UK) / Fully-funded
Project overview
The 4D Materials and Printing Lab in the Department of Engineering at Nottingham Trent University is seeking to recruit a fully funded PhD student.
4D printing enables 3D-printed materials and structures to change shape, function or properties over time when exposed to external stimuli such as light, heat, electricity, magnetic fields or humidity. This project will focus on 4D-printed material systems and structures that combine controlled shape change with tuneable multifunctional response, while supporting low-energy and sustainable adaptive technologies.
The PhD student will investigate smart polymer composites, functional surfaces and adaptive structures fabricated using additive manufacturing. The student will explore how material choice, surface design, geometry, activation strategy and environmental conditions affect 3D configuration, temperature distribution, field-responsive behaviour, stability, controllability and repeatability.
The project will combine hands-on experimental work with modelling and design tools. The student will design, print and test adaptive structural elements capable of controlled deformation and multifunctional response. Thermal imaging, functional testing, modelling and design-of-experiments will be used to guide the work and develop reliable design rules.
The project is part of a wider UK-France research programme on 4D-printed materials and structures. The student will have opportunities to work with academic partners in the UK and France and contribute to the development of next-generation adaptive material systems and structures with improved performance, energy efficiency and sustainability.
Subject Area:
- Materials
- Design
- Additive Manufacturing
- Functional Integration
Skills and Experience:
Candidates are expected to have a background in materials science, manufacturing engineering, mechanical engineering, polymer engineering, physics, robotics or a related discipline.
Experience or interest in 3D printing, computer-aided design (CAD), smart materials, polymer composites, functional surfaces, experimental testing, or modelling would be advantageous. Full training will be provided for specialist equipment and methods.
Supervisor: Dr Mahdi Bodaghi
Co-supervisor: Prof. Richard Bibb
Entry qualifications
- Applicants should have demonstrated excellence at undergraduate level and/or hold a master’s degree, or an equivalent qualification as assessed through UK ENIC. Applicants should normally have a UK 1st Class or 2:1 degree, or equivalent, in a related science or engineering discipline, with good knowledge of design, materials and manufacturing.
- To qualify as a UK or EU student for the purpose of the scholarship, applicants must have UK or EU citizenship.
How to apply
The application should include a single PDF file including:
- Cover letter (max 350 words, font: Arial, size: 11) stating clearly whether you are eligible for a scholarship as a UK or EU citizen and have skills and experience relevant to the project.
- Up-to-date CV (max 2 pages)
- Undergraduate degree certificate and transcript essential
- Postgraduate Master’s degree certificate and transcript if applicable
- Contact details of two references
- Certificate of English Language (for students whose first language is not English)
and must be submitted through the online applications portal.
Application for this studentship closes on 8 July 2026.
Interviews: July/August 2026
PhD Start Date: 1 October 2026
Fees and funding
This is a fully funded PhD studentship for UK or EU applicants only.
Funding is available for 3 years and covers tuition fees and a tax-free stipend of approximately £21,805 per annum with inflationary increases after the first year.
Guidance and support
For any informal queries about the studentship or the team, please contact the project’s Principal Investigator, Dr Mahdi Bodaghi at mahdi.bodaghi@ntu.ac.uk.
Still need help?
Contact Dr Mahdi Bodaghi on:
- Email: mahdi.bodaghi@ntu.ac.uk