49 coding-"https:"-"Prof"-"FEMTO-ST" "https:" "https:" "https:" "https:" "https:" "https:" "Dr" "P" positions at Imperial College London
Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
full respect, and that any and all staff involved with this work show due consideration at every level. For further details, applicants are directed to: http://www.imperial.ac.uk/research-and-innovation
-
to support experiment planning, model selection, interpretation of results and coordination of complex experimental and modelling workflows. You will work hands-on with data, code and modelling tools
-
Supervisors: Professor Victoria Cornelius, Dr Hadith Rastad, Dr Tim Rawson About the role Sequential Multiple Assignment Randomised Trials (SMARTs) are increasingly used to evaluate multistage
-
of research governance and a commitment to supporting high‑quality, compliant research activity. The ideal candidate will bring: Strong working knowledge of the Human Tissue Act, HTA Codes of Practice
-
. Access to a wide range of staff benefits and wellbeing resources. Interviews will be held Wednesday 22nd April 2026 Informal enquiries related to the position should be directed to Dr Cora O’Reilly
-
full-time and fixed term post for 3 years. Anticipated start date: 7 October 2026. Informal enquiries should be directed to Dr Inês Baptista, i.baptista@imperial.ac.uk . Please note that job descriptions
-
short duration intense heat spikes. This will require the incorporation of nonlinear temperature dependence, creep and relaxation simulation capabilities. Supervisors: Professor Matthew Santer, Dr. Paul
-
possible. If you require any further details about the role, please contact: Dr James Murray – j.w.murray@imperial.ac.uk Attached documents are available under links. Clicking a document link will initialize
-
particular emphasis on preparing analysis-ready datasets that support downstream statistical and machine learning workflows. You will work closely with Dr Cynthia Sandor within a collaborative and
-
primary supervision of Dr Thomas Ouldridge. The student will develop predictive models of nucleic acid strand displacement rates to allow the rational design of complex networks of ever-increasing