Spin state relaxation of iron complexes: The case for OPBE and S12g

Spin state relaxation of iron complexes: The case for OPBE and S12g

The structures of nine iron complexes that show a diversity of experimentally observed spin ground states are optimized and analyzed with Density Functional Theory (DFT). An extensive validation study of the new S12g functional is performed, with the discussion concerning the influence of t...

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Main Authors: Gruden Maja, Stepanović Stepan, Swart Marcel
Format: Article
Language:English
Published: Serbian Chemical Society 2015-01-01
Series:Journal of the Serbian Chemical Society
Subjects:
Density Functional Theory
Fe(II) and Fe(III) coordination compounds
validation study
spin states
Online Access:http://www.doiserbia.nb.rs/img/doi/0352-5139/2015/0352-51391500068G.pdf
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spelling doaj-a98e0637142b4dc58947ad8080d65f702020-11-24T22:09:57ZengSerbian Chemical Society Journal of the Serbian Chemical Society0352-51391820-74212015-01-0180111399141010.2298/JSC150611068G0352-51391500068GSpin state relaxation of iron complexes: The case for OPBE and S12gGruden Maja0Stepanović Stepan1Swart Marcel2University of Belgrade, Faculty of Chemistry, Belgrade, SerbiaUniversity of Belgrade, Center for Chemistry, IChTM, Belgrade, SerbiaUniversitat de Girona, Campus Montilivi, Facultat de Ciències, Institut de Química Computacional i Catàlisi (IQCC) and Departament de Química, Girona, Spain + Institució Catalana de Recerca i Estudis Avançats (ICREA), Barcelona, SpainThe structures of nine iron complexes that show a diversity of experimentally observed spin ground states are optimized and analyzed with Density Functional Theory (DFT). An extensive validation study of the new S12g functional is performed, with the discussion concerning the influence of the environment, geometry and its overall performance based on the comparison with the well proven OPBE functional. The OPBE and S12g functionals give the correct spin ground state for all investigated iron complexes. Since S12g performs remarkably well it can be considered a reliable tool for studying spin state energetics in complicated transition metal systems. [Ministerio de Ciencia e Innovación (MICINN, project CTQ2011-25086/BQU), the Ministerio de Economia y Competitividad (MINECO, project CTQ2014-59212/BQU) and the DIUE of the Generalitat de Catalunya (project 2014SGR1202, and Xarxa de Referència en Química Teòrica i Computacional); MICINN and the FEDER fund (European Fund for Regional Development) under grant UNGI10-4E-801, and the Serbian Ministry of Education and Science (Grant No. 172035). This work was performed in the framework of the COST action CM1305 "Explicit Control Over Spin-states in Technology and Biochemistry (ECOSTBio)" (STSM reference: ECOST-STSM-CM1305-27360).]http://www.doiserbia.nb.rs/img/doi/0352-5139/2015/0352-51391500068G.pdfDensity Functional TheoryFe(II) and Fe(III) coordination compoundsvalidation studyspin states
collection DOAJ
language English
format Article
sources DOAJ
author Gruden Maja
Stepanović Stepan
Swart Marcel
spellingShingle Gruden Maja
Stepanović Stepan
Swart Marcel
Spin state relaxation of iron complexes: The case for OPBE and S12g
Journal of the Serbian Chemical Society
Density Functional Theory
Fe(II) and Fe(III) coordination compounds
validation study
spin states
author_facet Gruden Maja
Stepanović Stepan
Swart Marcel
author_sort Gruden Maja
title Spin state relaxation of iron complexes: The case for OPBE and S12g
title_short Spin state relaxation of iron complexes: The case for OPBE and S12g
title_full Spin state relaxation of iron complexes: The case for OPBE and S12g
title_fullStr Spin state relaxation of iron complexes: The case for OPBE and S12g
title_full_unstemmed Spin state relaxation of iron complexes: The case for OPBE and S12g
title_sort spin state relaxation of iron complexes: the case for opbe and s12g
publisher Serbian Chemical Society
series Journal of the Serbian Chemical Society
issn 0352-5139
1820-7421
publishDate 2015-01-01
description The structures of nine iron complexes that show a diversity of experimentally observed spin ground states are optimized and analyzed with Density Functional Theory (DFT). An extensive validation study of the new S12g functional is performed, with the discussion concerning the influence of the environment, geometry and its overall performance based on the comparison with the well proven OPBE functional. The OPBE and S12g functionals give the correct spin ground state for all investigated iron complexes. Since S12g performs remarkably well it can be considered a reliable tool for studying spin state energetics in complicated transition metal systems. [Ministerio de Ciencia e Innovación (MICINN, project CTQ2011-25086/BQU), the Ministerio de Economia y Competitividad (MINECO, project CTQ2014-59212/BQU) and the DIUE of the Generalitat de Catalunya (project 2014SGR1202, and Xarxa de Referència en Química Teòrica i Computacional); MICINN and the FEDER fund (European Fund for Regional Development) under grant UNGI10-4E-801, and the Serbian Ministry of Education and Science (Grant No. 172035). This work was performed in the framework of the COST action CM1305 "Explicit Control Over Spin-states in Technology and Biochemistry (ECOSTBio)" (STSM reference: ECOST-STSM-CM1305-27360).]
topic Density Functional Theory
Fe(II) and Fe(III) coordination compounds
validation study
spin states
url http://www.doiserbia.nb.rs/img/doi/0352-5139/2015/0352-51391500068G.pdf
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AT stepanovicstepan spinstaterelaxationofironcomplexesthecaseforopbeands12g
AT swartmarcel spinstaterelaxationofironcomplexesthecaseforopbeands12g
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