Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- ;
- Cranfield University
- ; The University of Manchester
- University of Nottingham
- ; University of Birmingham
- ; Swansea University
- ; University of Warwick
- University of Cambridge
- ; Cranfield University
- ; University of Sussex
- UNIVERSITY OF VIENNA
- ; University of Nottingham
- ; University of Southampton
- University of Newcastle
- University of Sheffield
- ; Brunel University London
- ; Manchester Metropolitan University
- ; University of Cambridge
- ; University of Exeter
- ; University of Leeds
- ; University of Oxford
- ; University of Reading
- ; University of Sheffield
- ; University of Strathclyde
- ; University of Surrey
- Harper Adams University
- Imperial College London
- ; Aston University
- ; Coventry University Group
- ; EPSRC Centre for Doctoral Training in Green Industrial Futures
- ; London South Bank University
- ; Loughborough University
- ; University of Bristol
- ; University of East Anglia
- Durham University
- KINGS COLLEGE LONDON
- THE HONG KONG POLYTECHNIC UNIVERSITY
- University of Liverpool
- 28 more »
- « less
-
Field
-
potential around the UK and Ireland. This PhD project aims to develop and assess the feasibility of various novel fixed-bottom solutions for deep-water wind turbine deployment from structural and economic
-
energy and aerospace solutions. In particular, surface-mounted permanent magnet electrical machines are pushing performance boundaries. A major challenge is the structural integrity of the carbon-fibre
-
permanent magnet electrical machines are pushing performance boundaries. A major challenge is the structural integrity of the carbon-fibre reinforced polymer (CFRP) sleeves used to contain the rotor’s magnets
-
approach utilises the inherent need of the tumour for extracellular arginine and to use this to deliver a toxic moiety to the tumour; in other words, we will use the arginine structural motif as a targeting
-
their microstructure and local electronic properties with sub-molecular precision, the project aims to establish direct structure–function correlations and uncover the mechanisms that govern stability and charge
-
are used in beauty and hair care formulations to provide functionalities including pH, stability and viscosity control, sensory profile, texturing and structuring. In this project, we are seeking to develop
-
formulations to provide functionalities including pH, stability and viscosity control, sensory profile, texturing and structuring. In this project, we are seeking to develop the next generation of biopolymer
-
. It is essential that they are knowledgeable in current behaviour change science and techniques and specifically have experience of designing topic guides and administering in-depth, semi-structured
-
explore the nonlinear structural dynamics of LGSs to fully understand the complexity of their control. They will use this foundation to explore idealised and realistic control laws to virtually “stiffen
-
spectroscopic and structural properties of biomacromolecules. Likewise, it can also alter the activity and expression of proteins. However, there are many experimental challenges to be solved, including