442 proof-checking-postdoc-computer-science-logic positions at University of Cambridge
Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
the Williams-Gray lab. The lab works at the interface of clinical and laboratory science, aiming to better understand the clinical and biological heterogeneity of Parkinson's disease, and to develop new
-
disclosure (criminal records check) check, a health assessment and a security check. Click the 'Apply' button below to register an account with our recruitment system (if you have not already) and apply online
-
, and projects Collaborate with colleagues across the School of Biological Sciences and participate in projects. Please check the Further Particulars to see more information on the person specification
-
is dedicated to understanding the origins and progression of paediatric brain tumours and developing new therapeutic strategies. The lab combines genetic engineering, molecular biology, and
-
About Us The MRC Biostatistics Unit is one of Europe's leading biostatistics research institutions. Our focus is to deliver new analytical and computational strategies based on sound statistical
-
, Addenbrooke's and Royal Papworth Hospitals. Our research is at the forefront of the field, connecting ground-breaking discovery science with cutting-edge clinical and experimental medicine trials in a
-
Strategic Center of Research (SCOR) at the Department of Haematology. The SCOR is led by Professor George Vassiliou and is conducting research to develop a clinical programme for myeloid cancer prevention
-
well as to initiate new queries. As a member of an interdisciplinary team, the candidate will have the opportunity to receive training in a variety of techniques, including molecular biology, embryology, imaging
-
P. Grey in the Yusuf Hamied Department of Chemistry, working on a project focused on understanding solid-state ion dynamics and phase transformations in lithium- and sodium-ion battery electrode
-
anti-cancer T cell bioengineering, integrating advanced molecular biology and immunological techniques to better understand the mechanisms by which T cells can be engineered to target and destroy cancer