Sort by
Refine Your Search
-
Listed
-
Employer
- KINGS COLLEGE LONDON
- King's College London
- University of Oxford
- University of Liverpool
- AALTO UNIVERSITY
- University of Liverpool;
- Durham University
- University of Oxford;
- Aston University
- DURHAM UNIVERSITY
- Heriot Watt University
- King's College London;
- University of Cambridge
- University of Cambridge;
- ;
- Aston University;
- Durham University;
- Heriot-Watt University;
- Imperial College London
- Northumbria University;
- Oxford Brookes University;
- Sheffield Hallam University
- The University of Edinburgh;
- University of Dundee;
- University of Nottingham
- University of Nottingham;
- University of Reading
- University of West London
- 18 more »
- « less
-
Field
-
Now”. This document will provide information of what criteria will be assessed at each stage of the recruitment process. * Please note that this is a PhD level role but candidates who have submitted
-
Experience in fluorescence microscopy and/or flow cytometry-based readouts of infection Experience with biochemical assays (e.g. Western blotting) Experience handling/processing samples in vivo infection
-
designing and executing the synthesis of novel and innovative foldamer catalysts, and their application towards a variety of stereoselective processes, including organocatalytic and photocatalytic reactions
-
, and employability of our students. Ranked 21 in REF2021 in terms of grade point average, the Chemistry Department is a thriving environment for research as well as for career development. The Role
-
can be found in the Job Description document, provided at the bottom of the page. This document will provide information of what criteria will be assessed at each stage of the recruitment process
-
level role but candidates who have submitted their thesis and are awaiting award of their PhDs will be considered. In these circumstances the appointment will be made at Grade 5, spine point 30 with
-
foldamer catalysts, and their application towards a variety of stereoselective processes, including organocatalytic and photocatalytic reactions. Applicants should have extensive experience in both small
-
research, we lay the foundation for a new generation of devices that use various types of microwave-optomechanical effects for efficient signal processing. We have realized quantum-limited microwave
-
opportunity to collaborate with leading experts in research on foetuses/neonates/infants led by Prof Grainne McAlonan, Professor David Edwards, and Dr Dafnis Batalle; research on sensory processing by Dr Nick
-
potential to uncover new mechanisms governing the fundamental biological process of gene expression. The planned research, funded by an HFSP Research Grant, is a close collaboration between the Wrobel Lab