-
to have strong quantitative skills and experience of working with large gridded geospatial datasets. They will focus on designing approaches to process and utilise such datasets in population modelling and
-
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
-
responsibilities will include processing primary leukaemia and lymphoma cells from a range of patient samples and performing immunophenotyping, calcium flux assays, IGHV mutational analysis, and other genetic
-
applications. Combining organic synthesis, photophysical characterisation and advanced biological techniques, this project seeks to deliver next generation precision therapeutics for hard-to-treat cancers
-
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
-
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
-
will be able to build excellent relationships with. You will also have a proven track record of planning and delivering multi-method process and outcome evaluation. Other key Skills: Full understanding
-
. Key responsibilities include: Designing Power Processing and Control Unit, targeting compact and robust power delivery. Developing a PASTA testbed enabling remote control and monitoring. Optimising a
-
approaches to understand fundamental biological processes, with the goal of using this information to generate engineered antibodies for use as therapeutics in cancer and autoimmune disease. The appointee is
-
to working collaboratively within a multidisciplinary team Application process: For further information or an informal discussion prior to applying, please contact Professor Maggie Donovan-Hall at mh699