Optical and electrophysical properties of sulfur containing metal free phthalocyanine

Chemical and energy level structure, thin film formation as well as optical and electrophysical properties for metal free phthalocyanine containing rings with sulfur (2,3,9,10,16,17,23,24-tetra(5,6-dihydro-1,4-dithiin-2,3-dithiole)phthalocyanine) have been studied. Thermal heating of the substance p...

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Veröffentlicht in:Synthetic metals 2010-11, Vol.160 (21), p.2361-2365
Hauptverfasser: Kukhta, A.V., Kolesnik, E.E., Kukhta, I.N., Pochtenny, A.E., Dolgiy, V.K., Mousdis, G.A., Psaroudakis, N.
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container_end_page 2365
container_issue 21
container_start_page 2361
container_title Synthetic metals
container_volume 160
creator Kukhta, A.V.
Kolesnik, E.E.
Kukhta, I.N.
Pochtenny, A.E.
Dolgiy, V.K.
Mousdis, G.A.
Psaroudakis, N.
description Chemical and energy level structure, thin film formation as well as optical and electrophysical properties for metal free phthalocyanine containing rings with sulfur (2,3,9,10,16,17,23,24-tetra(5,6-dihydro-1,4-dithiin-2,3-dithiole)phthalocyanine) have been studied. Thermal heating of the substance powder results in rather good evaporation. Smooth and glasslike homogeneous thin film with a metallic lustre has been obtained. The absorption spectrum of the film with a maximum at 680 nm is strongly broadened. The additional sulfur containing groups are bended forming a stool like structure. Phthalocyanine skeleton and the nearest not bended sulfur containing ring is involved into longwave transition. HOMO and LUMO are at −5.14 and −3.10 eV correspondingly. Vertical ionization potential of free molecule is 5.99 eV and adiabatic one is 5.90 eV. The dipole moment of this molecule is 4.85 D. The predominance of doped conductivity confirms the amorphism of the vacuum deposited film. The mechanism of conductivity was found to be hopping.
doi_str_mv 10.1016/j.synthmet.2010.09.012
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Thermal heating of the substance powder results in rather good evaporation. Smooth and glasslike homogeneous thin film with a metallic lustre has been obtained. The absorption spectrum of the film with a maximum at 680 nm is strongly broadened. The additional sulfur containing groups are bended forming a stool like structure. Phthalocyanine skeleton and the nearest not bended sulfur containing ring is involved into longwave transition. HOMO and LUMO are at −5.14 and −3.10 eV correspondingly. Vertical ionization potential of free molecule is 5.99 eV and adiabatic one is 5.90 eV. The dipole moment of this molecule is 4.85 D. The predominance of doped conductivity confirms the amorphism of the vacuum deposited film. 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Thermal heating of the substance powder results in rather good evaporation. Smooth and glasslike homogeneous thin film with a metallic lustre has been obtained. The absorption spectrum of the film with a maximum at 680 nm is strongly broadened. The additional sulfur containing groups are bended forming a stool like structure. Phthalocyanine skeleton and the nearest not bended sulfur containing ring is involved into longwave transition. HOMO and LUMO are at −5.14 and −3.10 eV correspondingly. Vertical ionization potential of free molecule is 5.99 eV and adiabatic one is 5.90 eV. The dipole moment of this molecule is 4.85 D. The predominance of doped conductivity confirms the amorphism of the vacuum deposited film. 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subjects Condensed matter: electronic structure, electrical, magnetic, and optical properties
Conductivity
DFT
Dipole moment
Energy levels
Evaporation
Exact sciences and technology
Lustre
Optical properties
Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation
Optical properties of specific thin films
Phthalocyanine
Physics
Polymers
organic compounds
Stools
Sulfur
Thin film
Thin films
title Optical and electrophysical properties of sulfur containing metal free phthalocyanine
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