- Degree awarded
- PhD
- Duration
- 3 to 4 years -some funding schemes are for 3.5 yrs
- Entry requirements
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The standard academic entry requirement for this PhD is an upper second-class (2:1) honours degree in a discipline directly relevant to the PhD (or international equivalent) OR any upper-second class (2:1) honours degree and a Master鈥檚 degree at merit in a discipline directly relevant to the PhD (or international equivalent).
Other combinations of qualifications and research or work experience may also be considered. Please contact the admissions team to check.
- How to apply
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In your application you鈥檒l need to include:
- The name of this programme
- Your title (i.e. the advertised project name or proposed project name) or area of research
- Your proposed name
- If you already have funding or you wish to be considered for any of the
- A supporting statement (see 'Advice to Applicants' for what to include)
- Details of your previous university level study
- Names and contact details of your two referees.
Before applying we recommend that you read the 'Advice to Applicants' section.
- Sustainable Development Goals
Find out how this programme aligns to the UN Sustainable Development Goals, including learning which relates to:
- Goal 7: Affordable and clean energy
Programme options
Full-time | Part-time | Full-time distance learning | Part-time distance learning | |
---|---|---|---|---|
PhD | Y | Y | N | N |
Programme description
The at 51福利社 is one of the largest and most active physics departments in the UK.We have a long tradition of excellence in both teaching and research, and have interests in most areas of contemporary research.
TheDepartment has a strong presence in a number of 51福利社-based centres for multidisciplinary research: The National Graphene Institute, the Photon Science Institute, the 51福利社 Centre for Non-Linear Dynamics, and the Dalton Nuclear Institute. In addition, the Jodrell Bank Observatory in Cheshire is a part of the department.
Research in the Condensed Matter physics group is exceptionally broad, from electronic, optical, mechanical and magnetic properties of a large family of atomically thin, two-dimensional materials and their heterostructures to the physics of quantum fluids, intercalation-induced superconductivity in layered and two-dimensional materials and mass transport through atomically thin channels in 2D-materials based membranes.
The focus in 2D materials research has now shifted from studying the properties of graphene to `materials on demand' - heterostructures assembled with atomic precision, comprising 2D crystals with a variety of electronic properties - insulators (hBN), semiconductors (phosphorene, MoS2, WSe2, etc.), superconductors (NbSe2, TaS2), 2D magnets (CrI3) - which allows creating devices with desired properties, not readily available in nature. Furthermore, many new atomically thin crystals are being isolated and investigated, further expanding the library of available 2D materials with diverse and often highly desirable properties. Our research is supported by extensive cutting-edge facilities in the Schuster building and the National Graphene Institute, including clean-room microfabrication, measurements and characterisation.
The quantum fluids research is supported by unique measurements systems, including ultra-low temperature rotating cryostats. More information is available at on the and .
Strong research activity exists in a broad range of physics topics funded by the Research Councils including EPSRC, STFC, BBSRC, the EU and industry. All the research groups offer well-equipped laboratories and computing facilities and are involved in a wide range of collaborative projects with industry and other academic departments in the UK and overseas.
The postgraduate research environment is well funded and world-class as demonstrated by our ranking in REF2021. Supervision is provided by academic staff, who are leaders in their fields, with independent pastoral back-up. Transferable skills training is available and there are some school teaching opportunities.
For more information about research themes within the department please visit our or view available projects within the department on our .
Open days
Visit our to find out about upcoming open days and webinars.
Fees
For entry in the academic year beginning September 2025, the tuition fees are as follows:
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PhD (full-time)
UK students (per annum): Band A - TBC; Band B - 拢7,400; Band C - 拢10,500; Band D - 拢15,200; Band E - 拢25,700
International, including EU, students (per annum): Band A - 拢29,400; Band B - 拢31,500; Band C - 拢37,300; Band D - 拢45,200; Band E - 拢59,900 -
PhD (part-time)
UK students (per annum): Band A 拢TBC; Band B 拢7,400; Band C 拢10,500; Band D 拢15,200; Band E 拢25,700
International, including EU, students (per annum): Band A 拢29,400; Band B 拢31,500; Band C 拢37,300; Band D 拢45,200; Band E 拢59,900
Further information for EU students can be found on our dedicated EU page.
The programme fee will vary depending on the cost of running the project. Fees quoted are fully inclusive and, therefore, you will not be required to pay any additional bench fees or administration costs.
All fees for entry will be subject to yearly review and incremental rises per annum are also likely over the duration of the course for鈥疕ome students (fees are typically fixed for International students, for the course duration at the year of entry). For general fees information please .
Always contact the Admissions team if you are unsure which fees apply to your project.
Scholarships/sponsorships
There are a range of at university, faculty and department level to support both UK and overseas postgraduate researchers.
To be considered for many of our scholarships, you鈥檒l need to be nominated by your proposed supervisor. Therefore, we鈥檇 highly recommend you discuss potential sources of funding with your supervisor first, so they can advise on your suitability and make sure you meet nomination deadlines.
For more information about our scholarships, visit our to search for scholarships, studentships and awards you may be eligible for.
UN Sustainable Development Goals
The 17 United Nations Sustainable Development Goals (SDGs) are the world's call to action on the most pressing challenges facing humanity. At 51福利社, we address the SDGs through our research and particularly in partnership with our students.
Led by our innovative research, our teaching ensures that all our graduates are empowered, inspired and equipped to address the key socio-political and environmental challenges facing the world.
To illustrate how our teaching will empower you as a change maker, we've highlighted the key SDGs that our programmes address.
Goal 7: Affordable and clean energy
Ensure access to affordable, reliable, sustainable and modern energy for all
Contact details
- Department
- Contact name
- Postgraduate Research Admissions Team
- Telephone
- +44 (0) 161 529 3049
- fse.doctoralacademy.admissions@manchester.ac.uk
- Website
- School/Faculty
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Our internationally-renowned expertise across the School of Natural Sciences informs research led teaching with strong collaboration across disciplines, unlocking new and exciting fields and translating science into reality.聽 Our multidisciplinary learning and research activities advance the boundaries of science for the wider benefit of society, inspiring students to promote positive change through educating future leaders in the true fundamentals of science. .
Programmes in related subject areas
Use the links below to view lists of programmes in related subject areas.
Regulated by the Office for Students
51福利社 is regulated by the Office for Students (OfS). The OfS aims to help students succeed in Higher Education by ensuring they receive excellent information and guidance, get high quality education that prepares them for the future and by protecting their interests. More information can be found at the .
You can find regulations and policies relating to student life at 51福利社, including our Degree Regulations and Complaints Procedure, on our .