Aggregation control for high-performance polymer electronics. This project aims to exploit the behaviour of semiconducting polymer chains in solution to realise high-performance polymer electronics. This project will be achieved through a combination of simulation, theory, and X-ray measurements of solution-phase chain conformation and device studies. The project expects to create new predictive understanding of how the self organisation of semiconducting polymer chains determines thin-film micr ....Aggregation control for high-performance polymer electronics. This project aims to exploit the behaviour of semiconducting polymer chains in solution to realise high-performance polymer electronics. This project will be achieved through a combination of simulation, theory, and X-ray measurements of solution-phase chain conformation and device studies. The project expects to create new predictive understanding of how the self organisation of semiconducting polymer chains determines thin-film microstructure and thus charge transport in thin-film devices. Expected outcomes include new materials and processes for high-performance polymer transistors and enhanced interdisciplinary research partnerships. This approach should hasten the development of new technologies based on lightweight flexible electronic devices.Read moreRead less
Improved image analysis: maximised statistical use of geometry/shape constraints. This project will improve image analysis to apply such applications as 3D street-scape reconstruction, synthetic inserts into video for special effects, autonomous navigation, and scene understanding. It will do so by maximally exploiting the geometry of planar surfaces (e.g. walls) and straight lines and other simple geometric shapes.