Beyond the exciton: Shaping molecular energy landscapes using polaritons
Grant number: FT180100295 | Funding period: 2018 - 2022
This project aims to deliver a fundamental understanding of polariton-mediated light and heat energy transfer in molecular systems, paving the way for their exploitation in solar cells and chemical catalysis. Controlling energy flow within and between molecules is one of the challenges of molecular science. Such control allows concentration of light energy for solar harvesting and direction of thermal energy for site-selective chemistry. Recent work shows that molecular polaritons, admixtures of light and molecules, are a new and unique tool to assert this control. This project aims to deliver genuinely disruptive improvements in solar cell efficiency using polaritons.
Related publications (5)
Controlled Fabrication of Optical Signal Input/Output Sites on Plasmonic Nanowires
Shuichi Toyouchi, Mathias Wolf, Yusuke Nakao, Yasuhiko Fujita, Tomoko Inose, Beatrice Fortuni, Kenji Hirai, Johan Hofkens, Steven De Feyter, James Hutchison, Hiroshi Uji-i
Silver nanowires have attracted considerable attention as subdiffraction limited diameter waveguides in a variety of applications ..