posted on 2017-11-17, 12:37authored byFrancesca
S. Freyria, José M. Cordero, Justin R. Caram, Sandra Doria, Amro Dodin, Yue Chen, Adam P. Willard, Moungi G. Bawendi
Enhancing
photoluminescent emission (PL) in the near-infrared–infrared
(NIR–IR) spectral region has broad applications from solar
energy conversion to biological imaging. We show that self-assembled
molecular dye J-aggregates (light-harvesting nanotubes, LHNs) can
increase the PL emission of NIR PbS quantum dots (QDs) in both liquid
and solid media more than 8-fold, promoted primarily by a long-range
antenna effect and efficient Förster resonance energy transfer
(FRET) from donor to acceptor. To create this composite material and
preserve the optical properties of the nanocrystals, we performed
an in situ ligand substitution followed by a functionalization reaction
using click-chemistry. This resulted in PbS QDs soluble in an aqueous
environment compatible with the molecular J-aggregates (LHNs). Theoretical
and experimental results demonstrate that long-range diffusive exciton
transport in LHNs enables efficient energy transfer to low concentrations
of QDs despite there being no direct binding between molecular donors
and QD acceptors. This suggests a broad application space for mixed
light harvesting and photophysically active nanocomposite materials
based on self-assembling molecular aggregates.