I. N. Kukhta scite author profile

I. N. Kukhta

5Publications

67Citation Statements Received

29Citation Statements Given

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Affiliations

Institute of Chemistry of New Materials of the National Academy of Sciences of Belarus, National Academy of Sciences of Belarus, B.I. Stepanov Institute of Physics

Publications

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DFT study of the electronic structure of anthracene derivatives in their neutral, anion and cation forms

Кухто¹,

Kukhta²,

Kukhta³

et al. 2008

J. Phys. B: At. Mol. Opt. Phys.

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Anthracene and its simplest derivatives with electron-accepting (anthraquinone) and electron-donating (diaminoanthracene) properties in their anionic, neutral and cationic charge states are investigated using the density functional theory. The effect of addition and removal of the electron on the bond lengths, atomic charges, frontier orbitals, ionization potential (IP), electron affinity (EA) and reorganization energy is considered. The computed IP, EA and optical gaps are in rather good agreement with available experimental data.

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3,6-Di(9-carbazolyl)-9-(2-ethylhexyl)carbazole based single-layer blue organic light emitting diodes

et al. 2011

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Photoinduced hole dipoles’ mechanism of liquid crystal photoalignment

2020

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Polarized light absorption in photoalignment material induces anisotropic long-range interactions that orient liquid crystals. The main physical mechanisms behind anisotropic interactions are photocrosslinking and photodestruction of polymers, and photoisomerization and photorotation of azo dyes. Investigation of AtA-2 azo dye azimuthal anchoring versus exposure dose revealed the presence of an unusually strong anchoring peak at low doses, which is beyond our understanding of the known mechanisms. Here we explain these observations and demonstrate the existence of a photoalignment mechanism based on photoinduced hole dipole moments in the azo dye layer. Strong azimuthal anchoring energy > 2 × 1 0 − 4 J / m 2 is obtained with a <2007

Chemical Physics Letters

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Interaction of low-energy electrons with linear diphenylethynyl derivatives in the gas phase

Кухто

Kukhta

Казаков

et al. 2007

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We report calculated cross sections for elastic and inelastic collisions of low-energy electrons with tetrafluoroethene, C 2 F 4. The elastic cross section shows a number of resonance features, which we classify according to symmetry and analyze in relation to available experimental data. Electron-impact excitation cross sections are obtained for the 1 3 B 1u (T) and 1 1 B 1u (V) states arising from the →* transition, as well as for eight other low-lying excited states arising from excitations out of the highest occupied molecular orbital. As expected, the T and V states make the largest individual contributions to electron-impact excitation at low energies; however, the other states are shown to contribute significantly to the total excitation cross section at impact energies from 10 to 25 eV.

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I. N. Kukhta

DFT study of the electronic structure of anthracene derivatives in their neutral, anion and cation forms

3,6-Di(9-carbazolyl)-9-(2-ethylhexyl)carbazole based single-layer blue organic light emitting diodes

Photoinduced hole dipoles’ mechanism of liquid crystal photoalignment

Interaction of low-energy electrons with linear diphenylethynyl derivatives in the gas phase

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