TY  - JOUR
AU  - Darmanović, Darinka
AU  - Shcherbakov, Igor N.
AU  - Duboc, Carole
AU  - Spasojević, Vojislav
AU  - Hanžel, Darko
AU  - Anđelković, Katarina
AU  - Radanović, Dušanka
AU  - Turel, Iztok
AU  - Milenković, Milica R.
AU  - Gruden, Maja
AU  - Čobeljić, Božidar
AU  - Zlatar, Matija
PY  - 2019
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/3269
AB  - Magnetic anisotropy in pentagonal bipyramidal complexes of Co(II) (1 and 2), Fe(III) (3 and 4), and Ni(II) (5) with a 2,2′-[2,6-pyridinediylbis(ethylidyne-1-hydrazinyl-2-ylidene)]bis[N,N,N-trimethyl-2-oxoethanaminium] equatorial ligand and isothiocyanato axial ligands has been investigated by magnetic susceptibility measurements, powder X-band electron paramagnetic resonance (EPR) spectroscopy, Mössbauer spectroscopy, ab initio, and ligand-field density functional theory (LFDFT) calculations. The studied complexes display three distinct types of magnetic anisotropy. Co(II) complexes (1 and 2) show an easy plane anisotropy with large and positive D values and negligible rhombicity. The Ni(II) complex (5) has uniaxial magnetic anisotropy with a negative D value. Fe(III) complexes (3 and 4) have small zero-field splitting (ZFS) parameters. Theoretical modeling is used to rationalize the magnetic anisotropy in these systems and to identify the most important excited states that are responsible for the zero-field splitting. These excitations are a consequence of the electronic structure of the central metal ion in ideal pentagonal bipyramidal coordination.
PB  - American Chemical Society (ACS)
T2  - The Journal of Physical Chemistry C
T1  - Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone
VL  - 123
IS  - 51
SP  - 31142
EP  - 31155
DO  - 10.1021/acs.jpcc.9b08066
ER  - 

@article{
author = "Darmanović, Darinka and Shcherbakov, Igor N. and Duboc, Carole and Spasojević, Vojislav and Hanžel, Darko and Anđelković, Katarina and Radanović, Dušanka and Turel, Iztok and Milenković, Milica R. and Gruden, Maja and Čobeljić, Božidar and Zlatar, Matija",
year = "2019",
abstract = "Magnetic anisotropy in pentagonal bipyramidal complexes of Co(II) (1 and 2), Fe(III) (3 and 4), and Ni(II) (5) with a 2,2′-[2,6-pyridinediylbis(ethylidyne-1-hydrazinyl-2-ylidene)]bis[N,N,N-trimethyl-2-oxoethanaminium] equatorial ligand and isothiocyanato axial ligands has been investigated by magnetic susceptibility measurements, powder X-band electron paramagnetic resonance (EPR) spectroscopy, Mössbauer spectroscopy, ab initio, and ligand-field density functional theory (LFDFT) calculations. The studied complexes display three distinct types of magnetic anisotropy. Co(II) complexes (1 and 2) show an easy plane anisotropy with large and positive D values and negligible rhombicity. The Ni(II) complex (5) has uniaxial magnetic anisotropy with a negative D value. Fe(III) complexes (3 and 4) have small zero-field splitting (ZFS) parameters. Theoretical modeling is used to rationalize the magnetic anisotropy in these systems and to identify the most important excited states that are responsible for the zero-field splitting. These excitations are a consequence of the electronic structure of the central metal ion in ideal pentagonal bipyramidal coordination.",
publisher = "American Chemical Society (ACS)",
journal = "The Journal of Physical Chemistry C",
title = "Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone",
volume = "123",
number = "51",
pages = "31142-31155",
doi = "10.1021/acs.jpcc.9b08066"
}

Darmanović, D., Shcherbakov, I. N., Duboc, C., Spasojević, V., Hanžel, D., Anđelković, K., Radanović, D., Turel, I., Milenković, M. R., Gruden, M., Čobeljić, B.,& Zlatar, M.. (2019). Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone. in The Journal of Physical Chemistry C
American Chemical Society (ACS)., 123(51), 31142-31155.
https://doi.org/10.1021/acs.jpcc.9b08066

Darmanović D, Shcherbakov IN, Duboc C, Spasojević V, Hanžel D, Anđelković K, Radanović D, Turel I, Milenković MR, Gruden M, Čobeljić B, Zlatar M. Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone. in The Journal of Physical Chemistry C. 2019;123(51):31142-31155.
doi:10.1021/acs.jpcc.9b08066 .

Darmanović, Darinka, Shcherbakov, Igor N., Duboc, Carole, Spasojević, Vojislav, Hanžel, Darko, Anđelković, Katarina, Radanović, Dušanka, Turel, Iztok, Milenković, Milica R., Gruden, Maja, Čobeljić, Božidar, Zlatar, Matija, "Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone" in The Journal of Physical Chemistry C, 123, no. 51 (2019):31142-31155,
https://doi.org/10.1021/acs.jpcc.9b08066 . .

TY  - JOUR
AU  - Darmanović, Darinka
AU  - Shcherbakov, Igor N.
AU  - Duboc, Carole
AU  - Spasojević, Vojislav
AU  - Hanžel, Darko
AU  - Anđelković, Katarina
AU  - Radanović, Dušanka
AU  - Turel, Iztok
AU  - Milenković, Milica R.
AU  - Gruden, Maja
AU  - Čobeljić, Božidar
AU  - Zlatar, Matija
PY  - 2019
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/3314
AB  - Magnetic anisotropy in pentagonal bipyramidal complexes of Co(II) (1 and 2), Fe(III) (3 and 4), and Ni(II) (5) with a 2,2′-[2,6-pyridinediylbis(ethylidyne-1-hydrazinyl-2-ylidene)]bis[N,N,N-trimethyl-2-oxoethanaminium] equatorial ligand and isothiocyanato axial ligands has been investigated by magnetic susceptibility measurements, powder X-band electron paramagnetic resonance (EPR) spectroscopy, Mössbauer spectroscopy, ab initio, and ligand-field density functional theory (LFDFT) calculations. The studied complexes display three distinct types of magnetic anisotropy. Co(II) complexes (1 and 2) show an easy plane anisotropy with large and positive D values and negligible rhombicity. The Ni(II) complex (5) has uniaxial magnetic anisotropy with a negative D value. Fe(III) complexes (3 and 4) have small zero-field splitting (ZFS) parameters. Theoretical modeling is used to rationalize the magnetic anisotropy in these systems and to identify the most important excited states that are responsible for the zero-field splitting. These excitations are a consequence of the electronic structure of the central metal ion in ideal pentagonal bipyramidal coordination.
PB  - American Chemical Society (ACS)
T2  - The Journal of Physical Chemistry C
T1  - Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone
VL  - 123
IS  - 51
SP  - 31142
EP  - 31155
DO  - 10.1021/acs.jpcc.9b08066
ER  - 

@article{
author = "Darmanović, Darinka and Shcherbakov, Igor N. and Duboc, Carole and Spasojević, Vojislav and Hanžel, Darko and Anđelković, Katarina and Radanović, Dušanka and Turel, Iztok and Milenković, Milica R. and Gruden, Maja and Čobeljić, Božidar and Zlatar, Matija",
year = "2019",
abstract = "Magnetic anisotropy in pentagonal bipyramidal complexes of Co(II) (1 and 2), Fe(III) (3 and 4), and Ni(II) (5) with a 2,2′-[2,6-pyridinediylbis(ethylidyne-1-hydrazinyl-2-ylidene)]bis[N,N,N-trimethyl-2-oxoethanaminium] equatorial ligand and isothiocyanato axial ligands has been investigated by magnetic susceptibility measurements, powder X-band electron paramagnetic resonance (EPR) spectroscopy, Mössbauer spectroscopy, ab initio, and ligand-field density functional theory (LFDFT) calculations. The studied complexes display three distinct types of magnetic anisotropy. Co(II) complexes (1 and 2) show an easy plane anisotropy with large and positive D values and negligible rhombicity. The Ni(II) complex (5) has uniaxial magnetic anisotropy with a negative D value. Fe(III) complexes (3 and 4) have small zero-field splitting (ZFS) parameters. Theoretical modeling is used to rationalize the magnetic anisotropy in these systems and to identify the most important excited states that are responsible for the zero-field splitting. These excitations are a consequence of the electronic structure of the central metal ion in ideal pentagonal bipyramidal coordination.",
publisher = "American Chemical Society (ACS)",
journal = "The Journal of Physical Chemistry C",
title = "Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone",
volume = "123",
number = "51",
pages = "31142-31155",
doi = "10.1021/acs.jpcc.9b08066"
}

Darmanović, D., Shcherbakov, I. N., Duboc, C., Spasojević, V., Hanžel, D., Anđelković, K., Radanović, D., Turel, I., Milenković, M. R., Gruden, M., Čobeljić, B.,& Zlatar, M.. (2019). Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone. in The Journal of Physical Chemistry C
American Chemical Society (ACS)., 123(51), 31142-31155.
https://doi.org/10.1021/acs.jpcc.9b08066

Darmanović D, Shcherbakov IN, Duboc C, Spasojević V, Hanžel D, Anđelković K, Radanović D, Turel I, Milenković MR, Gruden M, Čobeljić B, Zlatar M. Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone. in The Journal of Physical Chemistry C. 2019;123(51):31142-31155.
doi:10.1021/acs.jpcc.9b08066 .

Darmanović, Darinka, Shcherbakov, Igor N., Duboc, Carole, Spasojević, Vojislav, Hanžel, Darko, Anđelković, Katarina, Radanović, Dušanka, Turel, Iztok, Milenković, Milica R., Gruden, Maja, Čobeljić, Božidar, Zlatar, Matija, "Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone" in The Journal of Physical Chemistry C, 123, no. 51 (2019):31142-31155,
https://doi.org/10.1021/acs.jpcc.9b08066 . .

TY  - DATA
AU  - Darmanović, Darinka
AU  - Shcherbakov, Igor N.
AU  - Duboc, Carole
AU  - Spasojević, Vojislav
AU  - Hanžel, Darko
AU  - Anđelković, Katarina
AU  - Radanović, Dušanka
AU  - Turel, Iztok
AU  - Milenković, Milica R.
AU  - Gruden, Maja
AU  - Čobeljić, Božidar
AU  - Zlatar, Matija
PY  - 2019
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/4438
AB  - Comparison of the EPR spectra of 1 and 2 (Figure S1); additional Mössbauer spectra (Figures S2–S5); Kohn–Sham molecular orbitals with dominant metal d character (Figures S6–S8); calculated principal components of the g-tensor (Table S1); calculated J values (Table S2); transition energies and contributions of the excited states to D and E (Tables S3–S6); d-orbital splitting according to AI-LFT (Table S7); composition of the multideterminant wave function of the ground and selected excited states (Table S8).
PB  - American Chemical Society (ACS)
T2  - The Journal of Physical Chemistry C
T1  - Supporting Information for: "Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone"
DO  - 10.1021/acs.jpcc.9b08066.s001
ER  - 

@misc{
author = "Darmanović, Darinka and Shcherbakov, Igor N. and Duboc, Carole and Spasojević, Vojislav and Hanžel, Darko and Anđelković, Katarina and Radanović, Dušanka and Turel, Iztok and Milenković, Milica R. and Gruden, Maja and Čobeljić, Božidar and Zlatar, Matija",
year = "2019",
abstract = "Comparison of the EPR spectra of 1 and 2 (Figure S1); additional Mössbauer spectra (Figures S2–S5); Kohn–Sham molecular orbitals with dominant metal d character (Figures S6–S8); calculated principal components of the g-tensor (Table S1); calculated J values (Table S2); transition energies and contributions of the excited states to D and E (Tables S3–S6); d-orbital splitting according to AI-LFT (Table S7); composition of the multideterminant wave function of the ground and selected excited states (Table S8).",
publisher = "American Chemical Society (ACS)",
journal = "The Journal of Physical Chemistry C",
title = "Supporting Information for: "Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone"",
doi = "10.1021/acs.jpcc.9b08066.s001"
}

Darmanović, D., Shcherbakov, I. N., Duboc, C., Spasojević, V., Hanžel, D., Anđelković, K., Radanović, D., Turel, I., Milenković, M. R., Gruden, M., Čobeljić, B.,& Zlatar, M.. (2019). Supporting Information for: "Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone". in The Journal of Physical Chemistry C
American Chemical Society (ACS)..
https://doi.org/10.1021/acs.jpcc.9b08066.s001

Darmanović D, Shcherbakov IN, Duboc C, Spasojević V, Hanžel D, Anđelković K, Radanović D, Turel I, Milenković MR, Gruden M, Čobeljić B, Zlatar M. Supporting Information for: "Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone". in The Journal of Physical Chemistry C. 2019;.
doi:10.1021/acs.jpcc.9b08066.s001 .

Darmanović, Darinka, Shcherbakov, Igor N., Duboc, Carole, Spasojević, Vojislav, Hanžel, Darko, Anđelković, Katarina, Radanović, Dušanka, Turel, Iztok, Milenković, Milica R., Gruden, Maja, Čobeljić, Božidar, Zlatar, Matija, "Supporting Information for: "Combined Experimental and Theoretical Investigation of the Origin of Magnetic Anisotropy in Pentagonal Bipyramidal Isothiocyanato Co(II), Ni(II), and Fe(III) Complexes with Quaternary-Ammonium-Functionalized 2,6-Diacetylpyridine Bisacylhydrazone"" in The Journal of Physical Chemistry C (2019),
https://doi.org/10.1021/acs.jpcc.9b08066.s001 . .

TY  - JOUR
AU  - Wang, Lianke
AU  - Zlatar, Matija
AU  - Vlahović, Filip
AU  - Demeshko, Serhiy
AU  - Philouze, Christian
AU  - Molton, Florian
AU  - Gennari, Marcello
AU  - Meyer, Franc
AU  - Duboc, Carole
AU  - Gruden, Maja
PY  - 2018
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/2335
AB  - The complexes [(FeLX)-X-N2S2] [in which L-N2S2 = 2,2'-(2,2'-bipryridine-6,6'-diyl)bis(1,1'-diphenylethanethiolate) and X = Cl, Br and I], characterized crystallographically earlier and here (Fe(L)Br), reveal a square pyramidal coordinated Fe-III ion. Unusually, all three complexes have intermediate spin ground states. Susceptibility measurements, powder cw X- and Q-band EPR spectra, and zero-field powder Mossbauer spectra show that all complexes display distinct magnetic anisotropy, which has been rationalized by DFT calculations.
PB  - Wiley-V C H Verlag Gmbh, Weinheim
T2  - Chemistry-A European Journal
T1  - Experimental and Theoretical Identification of the Origin of Magnetic Anisotropy in Intermediate Spin Iron(III) Complexes
VL  - 24
IS  - 20
SP  - 5091
EP  - 5094
DO  - 10.1002/chem.201705989
ER  - 

@article{
author = "Wang, Lianke and Zlatar, Matija and Vlahović, Filip and Demeshko, Serhiy and Philouze, Christian and Molton, Florian and Gennari, Marcello and Meyer, Franc and Duboc, Carole and Gruden, Maja",
year = "2018",
abstract = "The complexes [(FeLX)-X-N2S2] [in which L-N2S2 = 2,2'-(2,2'-bipryridine-6,6'-diyl)bis(1,1'-diphenylethanethiolate) and X = Cl, Br and I], characterized crystallographically earlier and here (Fe(L)Br), reveal a square pyramidal coordinated Fe-III ion. Unusually, all three complexes have intermediate spin ground states. Susceptibility measurements, powder cw X- and Q-band EPR spectra, and zero-field powder Mossbauer spectra show that all complexes display distinct magnetic anisotropy, which has been rationalized by DFT calculations.",
publisher = "Wiley-V C H Verlag Gmbh, Weinheim",
journal = "Chemistry-A European Journal",
title = "Experimental and Theoretical Identification of the Origin of Magnetic Anisotropy in Intermediate Spin Iron(III) Complexes",
volume = "24",
number = "20",
pages = "5091-5094",
doi = "10.1002/chem.201705989"
}

Wang, L., Zlatar, M., Vlahović, F., Demeshko, S., Philouze, C., Molton, F., Gennari, M., Meyer, F., Duboc, C.,& Gruden, M.. (2018). Experimental and Theoretical Identification of the Origin of Magnetic Anisotropy in Intermediate Spin Iron(III) Complexes. in Chemistry-A European Journal
Wiley-V C H Verlag Gmbh, Weinheim., 24(20), 5091-5094.
https://doi.org/10.1002/chem.201705989

Wang L, Zlatar M, Vlahović F, Demeshko S, Philouze C, Molton F, Gennari M, Meyer F, Duboc C, Gruden M. Experimental and Theoretical Identification of the Origin of Magnetic Anisotropy in Intermediate Spin Iron(III) Complexes. in Chemistry-A European Journal. 2018;24(20):5091-5094.
doi:10.1002/chem.201705989 .

Wang, Lianke, Zlatar, Matija, Vlahović, Filip, Demeshko, Serhiy, Philouze, Christian, Molton, Florian, Gennari, Marcello, Meyer, Franc, Duboc, Carole, Gruden, Maja, "Experimental and Theoretical Identification of the Origin of Magnetic Anisotropy in Intermediate Spin Iron(III) Complexes" in Chemistry-A European Journal, 24, no. 20 (2018):5091-5094,
https://doi.org/10.1002/chem.201705989 . .

TY  - DATA
AU  - Zlatar, Matija
AU  - Gruden, Maja
AU  - Vassilyeva, Olga Yu
AU  - Buvaylo, Elena A.
AU  - Ponomarev, A. N.
AU  - Zvyagin, S. A.
AU  - Wosnitza, J.
AU  - Krzystek, J.
AU  - Garcia-Fernandez, Pablo
AU  - Duboc, Carole
PY  - 2016
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/4465
AB  - Additional EPR spectra and computational details. Cartesian coordinates of all structures reoriented in a standard way, as explained in the main text.
PB  - American Chemical Society (ACS)
T2  - Inorganic Chemistry
T1  - Supplementary information for: "Origin of the Zero-Field Splitting in Mononuclear Octahedral Mn-IV Complexes: A Combined Experimental and Theoretical Investigation"
DO  - 10.1021/acs.inorgchem.5b02368.s001
ER  - 

@misc{
author = "Zlatar, Matija and Gruden, Maja and Vassilyeva, Olga Yu and Buvaylo, Elena A. and Ponomarev, A. N. and Zvyagin, S. A. and Wosnitza, J. and Krzystek, J. and Garcia-Fernandez, Pablo and Duboc, Carole",
year = "2016",
abstract = "Additional EPR spectra and computational details. Cartesian coordinates of all structures reoriented in a standard way, as explained in the main text.",
publisher = "American Chemical Society (ACS)",
journal = "Inorganic Chemistry",
title = "Supplementary information for: "Origin of the Zero-Field Splitting in Mononuclear Octahedral Mn-IV Complexes: A Combined Experimental and Theoretical Investigation"",
doi = "10.1021/acs.inorgchem.5b02368.s001"
}

Zlatar, M., Gruden, M., Vassilyeva, O. Y., Buvaylo, E. A., Ponomarev, A. N., Zvyagin, S. A., Wosnitza, J., Krzystek, J., Garcia-Fernandez, P.,& Duboc, C.. (2016). Supplementary information for: "Origin of the Zero-Field Splitting in Mononuclear Octahedral Mn-IV Complexes: A Combined Experimental and Theoretical Investigation". in Inorganic Chemistry
American Chemical Society (ACS)..
https://doi.org/10.1021/acs.inorgchem.5b02368.s001

Zlatar M, Gruden M, Vassilyeva OY, Buvaylo EA, Ponomarev AN, Zvyagin SA, Wosnitza J, Krzystek J, Garcia-Fernandez P, Duboc C. Supplementary information for: "Origin of the Zero-Field Splitting in Mononuclear Octahedral Mn-IV Complexes: A Combined Experimental and Theoretical Investigation". in Inorganic Chemistry. 2016;.
doi:10.1021/acs.inorgchem.5b02368.s001 .

Zlatar, Matija, Gruden, Maja, Vassilyeva, Olga Yu, Buvaylo, Elena A., Ponomarev, A. N., Zvyagin, S. A., Wosnitza, J., Krzystek, J., Garcia-Fernandez, Pablo, Duboc, Carole, "Supplementary information for: "Origin of the Zero-Field Splitting in Mononuclear Octahedral Mn-IV Complexes: A Combined Experimental and Theoretical Investigation"" in Inorganic Chemistry (2016),
https://doi.org/10.1021/acs.inorgchem.5b02368.s001 . .

TY  - JOUR
AU  - Zlatar, Matija
AU  - Gruden, Maja
AU  - Vassilyeva, Olga Yu
AU  - Buvaylo, Elena A.
AU  - Ponomarev, A. N.
AU  - Zvyagin, S. A.
AU  - Wosnitza, J.
AU  - Krzystek, J.
AU  - Garcia-Fernandez, Pablo
AU  - Duboc, Carole
PY  - 2016
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/1955
AB  - The aim of this work was to determine and understand the origin of the electronic properties of Mn-IV complexes, especially the zero-field splitting (ZFS), through a combined experimental and theoretical investigation on five well-characterized mononuclear octahedral Mn-IV compounds, with various coordination spheres (N-6, N3O3, N2O4 in both trans (trans-N2O4) and cis configurations (cis-N2O4) and O4S2). High-frequency and -field EPR (HFEPR) spectroscopy has been applied to determine the ZFS parameters of two of MnLtrans-N2O4 and Mn(LO4S)2 these compounds,. While at X-band EPR, the axial-component of the ZFS tensor, D, was estimated to be +0.47 cm(-1) for MnLO4S2, and a D-value of +2.289(5) cm(-1) was determined by HFEPR, which is the largest D-magnitude ever measured for a Mn-IV complex. A moderate D value of -0.997(6) cm(-1) has been found for MnLtrans-N2O4. Quantum chemical calculations based on two theoretical frameworks (the Density Functional Theory based on a coupled perturbed approach (CP-DFT) and the hybrid Ligand-Field DFT (LF-DFT)) have been performed to define appropriate methodologies to calculate the ZFS tensor for Mn-IV centers, to predict the orientation of the magnetic axes with respect to the molecular ones, and to define and quantify the physical origin of the different contributions to the ZFS. Except in the case of MnLtrans-N2O4, the experimental and calculated D values are in good agreement, and the sign of D is well predicted, LF-DFT being more satisfactory than CP-DFT. The calculations performed on MnLcis-N2O4 are consistent with the orientation of the principal anisotropic axis determined by single-crystal EPR, validating the calculated ZFS tensor orientation. The different contributions to D were analyzed demonstrating that the d-d transitions mainly govern D in Mn-IV ion. However, a deep analysis evidences that many factors enter into the game, explaining why no obvious magnetostructural correlations can be drawn in this series of Mn-IV complexes.
PB  - American Chemical Society (ACS)
T2  - Inorganic Chemistry
T1  - Origin of the Zero-Field Splitting in Mononuclear Octahedral Mn-IV Complexes: A Combined Experimental and Theoretical Investigation
VL  - 55
IS  - 3
SP  - 1192
EP  - 1201
DO  - 10.1021/acs.inorgchem.5b02368
ER  - 

@article{
author = "Zlatar, Matija and Gruden, Maja and Vassilyeva, Olga Yu and Buvaylo, Elena A. and Ponomarev, A. N. and Zvyagin, S. A. and Wosnitza, J. and Krzystek, J. and Garcia-Fernandez, Pablo and Duboc, Carole",
year = "2016",
abstract = "The aim of this work was to determine and understand the origin of the electronic properties of Mn-IV complexes, especially the zero-field splitting (ZFS), through a combined experimental and theoretical investigation on five well-characterized mononuclear octahedral Mn-IV compounds, with various coordination spheres (N-6, N3O3, N2O4 in both trans (trans-N2O4) and cis configurations (cis-N2O4) and O4S2). High-frequency and -field EPR (HFEPR) spectroscopy has been applied to determine the ZFS parameters of two of MnLtrans-N2O4 and Mn(LO4S)2 these compounds,. While at X-band EPR, the axial-component of the ZFS tensor, D, was estimated to be +0.47 cm(-1) for MnLO4S2, and a D-value of +2.289(5) cm(-1) was determined by HFEPR, which is the largest D-magnitude ever measured for a Mn-IV complex. A moderate D value of -0.997(6) cm(-1) has been found for MnLtrans-N2O4. Quantum chemical calculations based on two theoretical frameworks (the Density Functional Theory based on a coupled perturbed approach (CP-DFT) and the hybrid Ligand-Field DFT (LF-DFT)) have been performed to define appropriate methodologies to calculate the ZFS tensor for Mn-IV centers, to predict the orientation of the magnetic axes with respect to the molecular ones, and to define and quantify the physical origin of the different contributions to the ZFS. Except in the case of MnLtrans-N2O4, the experimental and calculated D values are in good agreement, and the sign of D is well predicted, LF-DFT being more satisfactory than CP-DFT. The calculations performed on MnLcis-N2O4 are consistent with the orientation of the principal anisotropic axis determined by single-crystal EPR, validating the calculated ZFS tensor orientation. The different contributions to D were analyzed demonstrating that the d-d transitions mainly govern D in Mn-IV ion. However, a deep analysis evidences that many factors enter into the game, explaining why no obvious magnetostructural correlations can be drawn in this series of Mn-IV complexes.",
publisher = "American Chemical Society (ACS)",
journal = "Inorganic Chemistry",
title = "Origin of the Zero-Field Splitting in Mononuclear Octahedral Mn-IV Complexes: A Combined Experimental and Theoretical Investigation",
volume = "55",
number = "3",
pages = "1192-1201",
doi = "10.1021/acs.inorgchem.5b02368"
}

Zlatar, M., Gruden, M., Vassilyeva, O. Y., Buvaylo, E. A., Ponomarev, A. N., Zvyagin, S. A., Wosnitza, J., Krzystek, J., Garcia-Fernandez, P.,& Duboc, C.. (2016). Origin of the Zero-Field Splitting in Mononuclear Octahedral Mn-IV Complexes: A Combined Experimental and Theoretical Investigation. in Inorganic Chemistry
American Chemical Society (ACS)., 55(3), 1192-1201.
https://doi.org/10.1021/acs.inorgchem.5b02368

Zlatar M, Gruden M, Vassilyeva OY, Buvaylo EA, Ponomarev AN, Zvyagin SA, Wosnitza J, Krzystek J, Garcia-Fernandez P, Duboc C. Origin of the Zero-Field Splitting in Mononuclear Octahedral Mn-IV Complexes: A Combined Experimental and Theoretical Investigation. in Inorganic Chemistry. 2016;55(3):1192-1201.
doi:10.1021/acs.inorgchem.5b02368 .

Zlatar, Matija, Gruden, Maja, Vassilyeva, Olga Yu, Buvaylo, Elena A., Ponomarev, A. N., Zvyagin, S. A., Wosnitza, J., Krzystek, J., Garcia-Fernandez, Pablo, Duboc, Carole, "Origin of the Zero-Field Splitting in Mononuclear Octahedral Mn-IV Complexes: A Combined Experimental and Theoretical Investigation" in Inorganic Chemistry, 55, no. 3 (2016):1192-1201,
https://doi.org/10.1021/acs.inorgchem.5b02368 . .