1. Giant light-harvesting nanoantenna for single-molecule detection in ambient light.
- Author
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Trofymchuk, Kateryna, Reisch, Andreas, Didier, Pascal, Fras, François, Gilliot, Pierre, Mely, Yves, and Klymchenko, Andrey S.
- Abstract
Here, we explore the enhancement of single-molecule emission by a polymeric nanoantenna that can harvest energy from thousands of donor dyes to a single acceptor. In this nanoantenna, the cationic dyes are brought together, in very close proximity, using bulky counterions, thus enabling ultrafast diffusion of excitation energy (≤30 fs) with minimal losses. Our 60 nm nanoparticles containing >10,000 rhodamine-based donor dyes can efficiently transfer energy to 1-2 acceptors, resulting in an antenna effect of ~1,000. Therefore, single Cy5-based acceptors become 25-fold brighter than quantum dots QD655. This unprecedented amplification of the acceptor dye emission enables observation of single molecules at illumination powers (1-10 mW cm
−2 ) that are >10,000-fold lower than typically required in single-molecule measurements. Finally, using a basic set-up, which includes a ×20 air objective and a scalable complementary metal-oxide-semiconductor camera, we could detect single Cy5 molecules by simply shining divergent light on the sample at powers equivalent to sunlight. Donor dye nanoparticles have been used to realize structures that are 25 times brighter than quantum dots. This enabled single-molecule imaging using ambient light. [ABSTRACT FROM AUTHOR]- Published
- 2017
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