Discrete and selective absorption in crystalline molecular nanofilms |
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Authors: | Matilda Vojnović Ana J. Šetrajčić-Tomić Siniša M. Vučenović Jovan P. Šetrajčić |
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Affiliation: | 1.Faculty of Medicine,University of Novi Sad,Novi Sad,Serbia;2.Department of Physics, Faculty of Sciences,University of Banja Luka,Banja Luka,Bosnia and Herzegovina;3.Department of Physics, Faculty of Sciences,University of Novi Sad,Novi Sad,Serbia;4.Faculty of Sports,University “Union – Nikola Tesla”,Novi Beograd,Serbia |
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Abstract: | Recent research in nano-optical engineering and in nanomedicine as well, seeks for methods of construction of various types of nano-markers, nano-carriers, and ways to deliver drugs to the exactly determined regions of body. In this process it is important to find methods of recognition of certain types of molecules. It is obvious that optical recognition would be the easiest and the most effective way to do it. Our research presents a model of a molecular ultrathin crystalline film and generated exciton system inside it and corresponding methodology of analysis of their optical characteristics. Properties of these spatially very restricted structures are very sensitive to their surrounding surfaces. Using the two-time Green’s functions adapted for crystalline structures with symmetry breaking, and graphical-numerical software, we have calculated the energy spectra and possible exciton states. We have shown that the appearance and the presence of localized states on the surfaces and in the boundary layers of the film depend on the thickness of the film and the film surroundings, presented through the perturbation of parameters on surfaces. Optical properties in these structures demonstrate discrete and very selective resonant absorption spectra, depending on the perturbation on their surfaces. |
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