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
Develop materials for stable and efficient printed polymer solar cells. The project aims to develop strategies to overcome current limitations of polymer solar cells by enhancing the thermal stability of these devices. This project expects to generate new knowledge in the area of stable and high-performance polymer solar cells, that can be manufactured by the printing industry in Australia. The expected outcome of this project includes new high performing materials, processing and additive strat ....Develop materials for stable and efficient printed polymer solar cells. The project aims to develop strategies to overcome current limitations of polymer solar cells by enhancing the thermal stability of these devices. This project expects to generate new knowledge in the area of stable and high-performance polymer solar cells, that can be manufactured by the printing industry in Australia. The expected outcome of this project includes new high performing materials, processing and additive strategies to overcome the key challenge to commercialising polymer solar cells. A significant benefit is their printability, providing the opportunity to establish a sovereign capability to manufacture low cost energy production systems in Australia.
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Industrial Transformation Training Centres - Grant ID: IC180100049
Funder
Australian Research Council
Funding Amount
$4,380,454.00
Summary
ARC Training Centre for Future Energy Storage Technologies. The ARC Training Centre for Future Energy Storage Technologies aims to equip the next generation of researchers and the energy technology workforce with the skills needed to drive innovation, exploration and investigation so we safeguard our workers and industries. The Centre aims to challenge existing thinking and expand Australia’s capacity in energy storage and production. The Centre expects to create new knowledge and intellectual p ....ARC Training Centre for Future Energy Storage Technologies. The ARC Training Centre for Future Energy Storage Technologies aims to equip the next generation of researchers and the energy technology workforce with the skills needed to drive innovation, exploration and investigation so we safeguard our workers and industries. The Centre aims to challenge existing thinking and expand Australia’s capacity in energy storage and production. The Centre expects to create new knowledge and intellectual property in advanced energy materials, batteries and battery-control systems for integration into end user industries. This Centre will facilitate small to medium-sized enterprises to take a global leadership role in advancing and producing new age storage technologies. By harnessing the expertise of researchers and industry partners the Centre aims to deliver benefit to our economy, the community and the environment.
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