Environmentally benign polymer solar cells. The project aims to prepare polymer solar cells, by developing water-compatible conjugated materials for the active layer. This technology would be cost-efficient and not use environmentally harmful solvents. The project would achieve aqueous compatibility of these hydrophobic molecules through substitution and careful positioning of functional groups. Fabrication processes will be optimised to incorporate these materials into solar cells, with a focus ....Environmentally benign polymer solar cells. The project aims to prepare polymer solar cells, by developing water-compatible conjugated materials for the active layer. This technology would be cost-efficient and not use environmentally harmful solvents. The project would achieve aqueous compatibility of these hydrophobic molecules through substitution and careful positioning of functional groups. Fabrication processes will be optimised to incorporate these materials into solar cells, with a focus on controlling the morphology of the active material. Determining the relationships between conjugated molecular design and cell performance should provide a new direction in solar-cell technology.Read moreRead less
Compact and versatile chip lasers for three-dimensional mine surveying. This project will bring together a world leading mine survey company, The University of Adelaide and Macquarie University researchers, to develop an 'eye-safe' micro laser for high resolution three-dimensional laser-mapping. The recently developed and patented 'chip' laser will allow the realisation of a compact, enhanced range laser-radar with unmatched resolution.
Creating a national time and frequency network for Australia. This project will develop the means to distribute accurate time and frequency across the Australian continent via an optical fibre network. This network will meet the needs of future telecommunications, science and astronomy projects including the Australian bid for the Square Kilometre Array radio-astronomy project.