Engineering Optical Activity of Semiconductor Nanocrystals via Ion Doping

Engineering Optical Activity of Semiconductor Nanocrystals via Ion Doping

Controlling the strength of enantioselective interaction of chiral inorganic nanoparticles with circularly polarized light is an intrinsically interesting subject of contemporary nanophotonics. This interaction is relatively weak, because the chirality scale of nanoparticles is much smaller than the...

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Bibliographic Details
Main Authors: Tepliakov Nikita V., Baimuratov Anvar S., Gun’ko Yurii K., Baranov Alexander V., Fedorov Anatoly V., Rukhlenko Ivan D.
Format: Article
Language:English
Published: De Gruyter 2016-09-01
Series:Nanophotonics
Subjects:
ion doping
chirality
nanocrystals
circular dichroism
Online Access:https://doi.org/10.1515/nanoph-2016-0034
Description
Summary:Controlling the strength of enantioselective interaction of chiral inorganic nanoparticles with circularly polarized light is an intrinsically interesting subject of contemporary nanophotonics. This interaction is relatively weak, because the chirality scale of nanoparticles is much smaller than the optical wavelength. Here we theoretically demonstrate that ion doping provides a powerful tool of engineering and enhances optical activity of semiconductor nanocrystals. We show that by carefully positioning ionic impurities inside the nanocrystals, one can maximize the rotatory strengths of intraband optical transitions, and make them 100 times larger than the typical rotatory strengths of small chiral molecules.
ISSN:2192-8606
2192-8614

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