Sort by
Refine Your Search
-
of Clinical Neurosciences (NDCN). The successful candidate will be responsible for leading a specific research project entitled ‘Investigating the multiple roles of cryptochromes in animal magnetoreception
-
drug and disease research in multiple projects in the group. The candidate is expected to lead a drug development project and support other group projects. This will include lab experiments, analysing
-
close to completion of a relevant PhD. You will manage your own academic research, effectively coordinating multiple strands of work. Direct experience in molecular genetics and/or plant-microbe interactions
-
demonstrate evidence of continuing professional development alongside excellent organisational skills with the ability to work flexibly and autonomously and contribute to / manage multiple projects at various
-
project management, to co-ordinate multiple aspects of work to meet deadlines. The post will be based in the Department of Chemistry, Chemistry Research Laboratory, 12 Mansfield Road, Oxford, OX1 3TA and is
-
multiple aspects of work to meet deadlines. The post will be based in the Department of Chemistry, Chemistry Research Laboratory, 12 Mansfield Road, OX1 3TA and is available from October 2025. Application
-
graduate students and junior researchers, contribute to ongoing projects, and have the freedom to pursue independent research directions that align with our broader aims of the group. You will also help
-
organisational and time management skills, with the ability to prioritise multiple tasks. You must have the ability to work independently while also being a supportive team member and a proactive and adaptable
-
complex qualitative and/or quantitative data from a variety of sources, and contribute original ideas for new research projects. You will coordinate multiple aspects of work to deliver novel research data
-
. You will support multiple research projects in the lab, focused on studying the anti-tumour response and the impact of different immunosuppressive mechanisms in the tumour microenvironment that curtail