Dye Solar Cell applications and technological advancements will be the focus of a two year joint R&D collaboration commencing in June between Singapore’s Energy Research Institute at Nanyang Technological University (ERI@N) and Australian renewable energy firm, Dyesol Limited (DYE).
Both institutions will partner up for research and development work involving low-cost DSC technology – a nanotechnology that mimics photosynthesis to turn light into electricity under real world solar conditions – invented by renowned photo-chemist Professor Michael Graetzel who is Chairman of both the Energy Research Institute at NTU’s (ERI@N) International Advisory Board and Dyesol’s Technical Advisory Board.
“I am thrilled about this partnership agreement between ERI@N and Dyesol; uniting the impressive technology base and experience of these two institutions will result in a powerful synergistic thrust, fostering new scientific breakthroughs and commercial applications,” said Professor Michael Graetzel.
Executive Director of ERI@N, Professor Subodh Mhaisalkar, said the collaboration with global DSC leader Dyesol demonstrates NTU’s continued efforts and commitment to sustainability, as clean energy is one of NTU’s ‘Five Peaks of Excellence’ for which the university aims to make its global mark. “With efficiencies already exceeding 12 per cent, DSC offers a viable alternative for cost-competitive energy harvesting solutions which may be readily integrated into buildings and consumer applications. We look forward to partnering Dyesol and Professor Graetzel’s research teams to develop high-efficiency and reliable solutions that will promote widespread adoption of these solar cells.” Professor Mhaisalkar said.
In addition to leading the mass-market commercialisation of DSC technology through collaborations with multinational manufacturers seeking to embed photovoltaic capability into their products, Dyesol is also working with leading universities and research institutes to advance DSC performance, capabilities and evaluate potential applications.