Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
spanning immunology, and bioinformatics, with access to advanced flow cytometry, 10X Genomics, in vivo imaging platforms. Key responsibilities To work within the Mansour and Roghanian labs, and with
-
efficient, convenient and cost effective Park & Ride system is in operation for University staff employed at the Hospital campus. You will be proactive and possess strong administrative and proven
-
chemical processes, supporting the translation of innovation from the laboratory to pilot scale. The successful candidate will focus on the mechanistic modelling of carbon dioxide conversion and other
-
strong IT and data processing / analysis skills. Candidates should apply using the University online recruitment system, outlining why you feel you may be particularly suited to the role and include a
-
complement the team’s work ethic, a keen eye for accuracy, efficiency, and attention to detail. Please note the SoBS technical team does not participate in research or process samples for research projects
-
of methane at high concentrations both from gas-fed bioreactors and through modification of conventional anaerobic digestion processes. The research is intended to assess the optimum conditions and the
-
An exciting opportunity is available for a talented researcher to join a successful team within the Primary Care Research Centre to support the process evaluation and implementation of a digital e
-
observation-constrained reduced-order models to reproduce ESM simulations. You will first analyse state-of-the-art Earth System Model (ESM) simulations and diagnose underlying processes for inter-model
-
experience in a broad range of device design and cleanroom fabrication processes including, mask/reticle/EBL design, process flow planning, process development, lithography, deposition, etch and other wafer
-
process evaluation and implementation of a digital e-health intervention for young people with acne (Acne Care Online ). The post is available under the supervision of Professor Miriam Santer and Dr Rosie