Sort by
Refine Your Search
-
Listed
-
Employer
- University of Birmingham
- University of Birmingham;
- Bangor University
- Newcastle University
- The University of Manchester
- UNIVERSITY OF VIENNA
- University of Exeter;
- European Magnetism Association EMA
- Newcastle University;
- The University of Manchester;
- University of East Anglia
- University of Exeter
- University of Nottingham
- 3 more »
- « less
-
Field
-
Research theme: Laser materials processing; Advanced manufacturing; Mechanical Engineering This 3.5-year PhD is funded by the University of Manchester and is open to UK students. The funding covers
-
of realising an optical-pump TeraHertz-probe polarisation-resolved near-field microscope, this PhD research programme will look at combining spintronic THz emitters and near-field photoconductive probes
-
Deadline extended: 30 October 2025 (originally 29 September 2025) A fully funded 3-year PhD is available in the School of Computer Science and Engineering (SCSE), Bangor University. The project will
-
are urgently needed to monitor PFAS in water and probe their interactions with biological systems. This PhD project will develop a cutting-edge single-molecule optical sensor for real-time, ultra-sensitive PFAS
-
and determination? We are currently seeking a/an University Assistant Predoctoral - PhD Position in Inorganic & Materials Chemistry 52 Faculty of Chemistry Startdate: 01.01.2026 | Working hours: 30
-
enable by two-photon polymerisation 3D printing rationalizes the use of the powerful topological optimisation. The PhD candidate should have completed (or about to complete) their undergraduate degree in
-
Supervisors Primary Supervisor - Dr Calum Williams Secondary Supervisors - Dr. Maciej Dabrowski , Prof Simon Horsley This PhD studentship will develop 3D-printed optical metamaterials to control
-
Join the School of Physics and Astronomy at the University of Birmingham for groundbreaking PhD research that aims to improve the knowledge of biological macromolecules! The interaction between
-
Join the University of Birmingham for groundbreaking PhD research to make 6G possible! Future radio communication systems (6G and beyond) will use frequencies above 100 GHz to achieve bit rates
-
between these molecules to engineer new quantum states. However, so far it is not well known how to achieve entanglement with molecules with such plasmonic systems. This PhD project will focus on developing