Daly, Ronan - University of Cambridge - Department of Engineering, Mechanics, Materials and Design

个人简介

Ronan is a University Lecturer in the Science and Technology of Manufacturing based at the Institute for Manufacturing, Department of Engineering. He leads the research on Fluids in Advanced Manufacturing and is also part of the Inkjet Research Centre. Ronan joined the Institute for Manufacturing in 2011. Prior to this, he completed his MEng (Chemical Engineering with European Studies) at the University of Edinburgh. He then joined Unilever R&D, where his final role was Process Technology Manager, leading the scale up work for a range of deodorant/antiperspirant innovations from lab to pilot and factory scale. He moved to The School of Chemistry and the Centre for Research on Adaptive Nanostructures and Nanodevices (CRANN external link) in Trinity College Dublin (2006-2011) where his research and PhD topic in the Boland Research Group external link included a self-organisation technique to make highly ordered porous polymer materials for drug delivery applications. While in the ASIN lab external link and the Nanobio-Nanomechanics Lab external link he worked on developing scalable graphene-based biosensors. In addition, he collaborated with the Supramolecular & Medicinal Chemistry Research Group external link looking at supramolecular gels for biological applications.

研究领域

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Dr Daly's research group (Fluids in Advanced Manufacturing - FIAM) examines chemical and physical phenomena of polymeric, biological and nanomaterials when exposed to advanced fluid-based manufacturing techniques. The goal is to join emerging technologies with novel routes to incorporation into devices. In a multi-disciplinary and industry-linked agenda, the vital downstream risk factors are also studied to allow rapid integration of research into a functioning industrial value chain. Key research interests include: Paper-based, acoustic and nanomaterial biosensors Scale-up challenges of emerging technologies Novel applications of inkjet printing Self-organised nanostructures Supramolecular gels Additive Manufacturing