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arXiv: 2008.03341
handle: 20.500.14243/421805 , 11577/3408063 , 11380/1186195
We predict the enhanced light harvesting of a protein-pigment complex when assembled to a quantum dot (QD) antenna. Our prototypical nanoassembly setup is composed of a Fenna-Mattews-Olson system hosting 8 Bacteriochlorophyll (BChl) a dyes, and a near-infrared emitting CdSe$_x$Te$_{(1-x)}$/ZnS alloy-core/shell nanocrystal. BChl a has two wide windows of poor absorption in the green and orange-red bands, precisely where most of the sunlight energy lies. The selected QD is able to collect sunlight efficiently in a broader band and funnel its energy by a (non-radiative) Förster resonance energy transfer mechanism to the dyes embedded in the protein. By virtue of the coupling between the QD and the dyes, the nanoassembly absorption is dramatically improved in the poor absorption window of the BChl a.
5 pages, 3 figures, presented in the NANOFIM 2018 conference in Mexico City
NIR quantum dot, Chemical Physics (physics.chem-ph), Quantum Physics, Light-harvesting antenna; FMO; BChl a; NIR quantum dot; FRET; hybrid material, hybrid material, FOS: Physical sciences, BChl a; FMO; FRET; Hybrid material; Light-harvesting antenna; NIR quantum dot, Computational Physics (physics.comp-ph), Light-harvesting antenna, Physics - Chemical Physics, BChl a, FRET, FMO, Quantum Physics (quant-ph), Physics - Computational Physics
NIR quantum dot, Chemical Physics (physics.chem-ph), Quantum Physics, Light-harvesting antenna; FMO; BChl a; NIR quantum dot; FRET; hybrid material, hybrid material, FOS: Physical sciences, BChl a; FMO; FRET; Hybrid material; Light-harvesting antenna; NIR quantum dot, Computational Physics (physics.comp-ph), Light-harvesting antenna, Physics - Chemical Physics, BChl a, FRET, FMO, Quantum Physics (quant-ph), Physics - Computational Physics
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