Magnetically induced ring currents in metallocenothiaporphyrins

The magnetically induced current-density susceptibility tensor (CDT) of the lowest singlet and triplet states of the metallocenothiaporphyrins, where the metal is V, Cr, Mn, Fe, Co, Ni, Mo, Tc, Ru, or Rh, have been studied with the gauge-including magnetically induced currents (GIMIC) method. The co...

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Veröffentlicht in:	Physical chemistry chemical physics : PCCP 2022-01, Vol.24 (3), p.1666-1674
Hauptverfasser:	Valiev, Rashid R, Kurten, Theo, Valiulina, Lenara I, Ketkov, Sergey Yu, Cherepanov, Viktor N, Dimitrova, Maria, Sundholm, Dage
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Sprache:	eng
Schlagworte:	Aromaticity Chromium Iron Manganese Mathematical analysis Molybdenum Orbitals Ring currents Tensors
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container_title	Physical chemistry chemical physics : PCCP
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creator	Valiev, Rashid R Kurten, Theo Valiulina, Lenara I Ketkov, Sergey Yu Cherepanov, Viktor N Dimitrova, Maria Sundholm, Dage
description	The magnetically induced current-density susceptibility tensor (CDT) of the lowest singlet and triplet states of the metallocenothiaporphyrins, where the metal is V, Cr, Mn, Fe, Co, Ni, Mo, Tc, Ru, or Rh, have been studied with the gauge-including magnetically induced currents (GIMIC) method. The compounds containing V, Mn, Co, Tc or Rh were studied as cations because the neutral molecules have an odd number of electrons. The calculations show that the aromatic nature of most of the studied molecules follows the Hückel and Baird rules of aromaticity. CDT calculations on the high-spin states of the neutral metallocenothiaporphyrins with V, Mn, Co, Tc or Rh also shows that these molecules follow a unified extended Hückel and Baird aromaticity orbital-count rule stating that molecules with an odd number of occupied conjugated valence orbitals are aromatic, whereas molecules with an even number of occupied conjugated orbitals are antiaromatic. Magnetically induced current-density susceptibility pathways and the strength of the flux in ferrocenothiaporphyrin and dihydroferrocenothiaporphyrin.
doi_str_mv	10.1039/d1cp04779e
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The compounds containing V, Mn, Co, Tc or Rh were studied as cations because the neutral molecules have an odd number of electrons. The calculations show that the aromatic nature of most of the studied molecules follows the Hückel and Baird rules of aromaticity. CDT calculations on the high-spin states of the neutral metallocenothiaporphyrins with V, Mn, Co, Tc or Rh also shows that these molecules follow a unified extended Hückel and Baird aromaticity orbital-count rule stating that molecules with an odd number of occupied conjugated valence orbitals are aromatic, whereas molecules with an even number of occupied conjugated orbitals are antiaromatic. 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The compounds containing V, Mn, Co, Tc or Rh were studied as cations because the neutral molecules have an odd number of electrons. The calculations show that the aromatic nature of most of the studied molecules follows the Hückel and Baird rules of aromaticity. CDT calculations on the high-spin states of the neutral metallocenothiaporphyrins with V, Mn, Co, Tc or Rh also shows that these molecules follow a unified extended Hückel and Baird aromaticity orbital-count rule stating that molecules with an odd number of occupied conjugated valence orbitals are aromatic, whereas molecules with an even number of occupied conjugated orbitals are antiaromatic. 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source	Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Aromaticity Chromium Iron Manganese Mathematical analysis Molybdenum Orbitals Ring currents Tensors
title	Magnetically induced ring currents in metallocenothiaporphyrins
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