Brian Derby,
Professor,
University of Manchester
Brian Derby is Professor of Materials Science in the School of Materials. He is based in the Materials Science centre. His research spans three of the research groups within the School of Materials: ceramics and glasses, biomaterials, nanostructured materials. Brian graduated in Natural Sciences from Cambridge University in 1978 and obtained his PhD, also from Cambridge, in 1981. He spent 1 year working at the Centre d'Etudes Nucleaire de Grenoble as an ESA Fellow before spending 2 years in Cambridge University Engineering Department as a Research Fellow. He was in the University of Oxford, Department of Materials from 1983 -1998 as a Research Fellow, Lecturer and Reader in Materials Engineering, where he was Director of the Oxford Centre for Advanced Materials and Composites. He was appointed Professor in Materials Science at the Materials Science Centre in 1999. He was elected a member of the World Academy of Ceramics in 2004. Brian Derby's research interests span a wide range with a focus on the processing-structure-mechanical properties relation in ceramics and glasses, biomaterials and nanostructured materials. Recently he has been at the forefront of research into the development of inkjet printing as a manufacturing tool. He has particular interest in developing methods of characterising materials and processes in situ. Much of this work has been carried out collaborating with industry and other research groups across the world.
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Bioprinting: from Regenerative Medicine to the Organ-on-a-ChipFriday, 14 October 2016 at 11:00 Add to Calendar ▼2016-10-14 13:45:002016-10-14 14:45:00Europe/LondonAfternoon Session:Bioprinting and 3D Printing in the Life Sciences in Cambridge, UKCambridge, UKSELECTBIOenquiries@selectbiosciences.com The talk will present an overview of bioprinting technologies comparing feature resolution with production throughput. The different requirements for applications in regenerative medicine/tissue engineering, medical devices (implantable or external) and organ on a chip platforms will be reviewed.
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