Electron Paramagnetic Resonance Studies of Nitrosyl and Thionitrosyl and Density Functional Theory Studies of Nitrido, Nitrosyl, Thionitrosyl, and Selenonitrosyl Complexes of Chromium

Johannes Rytter Dethlefsen; Anders Rørbæk Døssing; Erik Donovan Hedegård

Electron Paramagnetic Resonance Studies of Nitrosyl and Thionitrosyl and Density Functional Theory Studies of Nitrido, Nitrosyl, Thionitrosyl, and Selenonitrosyl Complexes of Chromium

Johannes Rytter Dethlefsen, Anders Rørbæk Døssing, Erik Donovan Hedegård

Department of Chemistry

13 Citations (Scopus)

Abstract

The novel S = 1/2 thionitrosyl complexes Cr(NS)(CN)₅ ^3-, Cr(NS)(dmso)₅²⁺, and Cr(NS)(nmf) ₅²⁺ (dmso = dimethyl sulfoxide, nmf = N-methylformamide) have been prepared, and their optical and electron paramagnetic resonance (EPR) spectra were studied. The values of the isotropic and anisotropic hyperfine and superhyperfine coupling constants A(⁵³Cr), A(¹⁴N), and A(¹³C) and of g were determined from the EPR spectra at room temperature and at 66 K. The values of A_T and A_iso in the thionitrosyl complexes were slightly higher than in the analogous nitrosyl complexes. A common feature in the optical absorption spectra of the thionitrosyl complexes in solution at 298 K is an absorption band around 600 nm with a vibronic structure whereas such a band is located around 450 nm in the analogous nitrosyl complexes. Density functional theory (DFT) studies of the series of complexes Cr(N)(H₂O)₅²⁺, Cr(NO)(H₂O)₅²⁺, Cr(NS)(H₂O) ₅²⁺, and Cr(NSe)(H₂O)₅²⁺ show that the unpaired electron resides in a metal-based d_xy orbital and that the electronic structure in the equatorial plane is similar in all four complexes and similar to Cr³⁺. The σ donating ability was found in the order N^3- ≫ NO < NS ≈ NSe and the α accepting ability in the order NO > NS ≈ NSe. Time dependent DFT calculations gave in all four complexes a d_x2-y2←d_xy transition energy around 17 500 cm^-1.

Original language	English
Journal	Inorganic Chemistry
Volume	49
Pages (from-to)	8769-8778
Number of pages	10
ISSN	0020-1669
Publication status	Published - 4 Oct 2010

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Electron Paramagnetic Resonance Studies of Nitrosyl and Thionitrosyl and Density Functional Theory Studies of Nitrido, Nitrosyl, Thionitrosyl, and Selenonitrosyl Complexes of Chromium. / Dethlefsen, Johannes Rytter; Døssing, Anders Rørbæk; Hedegård, Erik Donovan.

In: Inorganic Chemistry, Vol. 49, 04.10.2010, p. 8769-8778.

Research output: Contribution to journal › Journal article › Research › peer-review

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title = "Electron Paramagnetic Resonance Studies of Nitrosyl and Thionitrosyl and Density Functional Theory Studies of Nitrido, Nitrosyl, Thionitrosyl, and Selenonitrosyl Complexes of Chromium",

abstract = "The novel S = 1/2 thionitrosyl complexes Cr(NS)(CN)5 3-, Cr(NS)(dmso)52+, and Cr(NS)(nmf) 52+ (dmso = dimethyl sulfoxide, nmf = N-methylformamide) have been prepared, and their optical and electron paramagnetic resonance (EPR) spectra were studied. The values of the isotropic and anisotropic hyperfine and superhyperfine coupling constants A(53Cr), A(14N), and A(13C) and of g were determined from the EPR spectra at room temperature and at 66 K. The values of AT and Aiso in the thionitrosyl complexes were slightly higher than in the analogous nitrosyl complexes. A common feature in the optical absorption spectra of the thionitrosyl complexes in solution at 298 K is an absorption band around 600 nm with a vibronic structure whereas such a band is located around 450 nm in the analogous nitrosyl complexes. Density functional theory (DFT) studies of the series of complexes Cr(N)(H2O)52+, Cr(NO)(H2O)52+, Cr(NS)(H2O) 52+, and Cr(NSe)(H2O)52+ show that the unpaired electron resides in a metal-based dxy orbital and that the electronic structure in the equatorial plane is similar in all four complexes and similar to Cr3+. The σ donating ability was found in the order N3- ≫ NO < NS ≈ NSe and the α accepting ability in the order NO > NS ≈ NSe. Time dependent DFT calculations gave in all four complexes a dx2-y2←dxy transition energy around 17 500 cm-1.",

author = "Dethlefsen, {Johannes Rytter} and D{\o}ssing, {Anders R{\o}rb{\ae}k} and Hedeg{\aa}rd, {Erik Donovan}",

year = "2010",

month = oct,

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language = "English",

volume = "49",

pages = "8769--8778",

journal = "Inorganic Chemistry",

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T1 - Electron Paramagnetic Resonance Studies of Nitrosyl and Thionitrosyl and Density Functional Theory Studies of Nitrido, Nitrosyl, Thionitrosyl, and Selenonitrosyl Complexes of Chromium

AU - Dethlefsen, Johannes Rytter

AU - Døssing, Anders Rørbæk

AU - Hedegård, Erik Donovan

PY - 2010/10/4

Y1 - 2010/10/4

N2 - The novel S = 1/2 thionitrosyl complexes Cr(NS)(CN)5 3-, Cr(NS)(dmso)52+, and Cr(NS)(nmf) 52+ (dmso = dimethyl sulfoxide, nmf = N-methylformamide) have been prepared, and their optical and electron paramagnetic resonance (EPR) spectra were studied. The values of the isotropic and anisotropic hyperfine and superhyperfine coupling constants A(53Cr), A(14N), and A(13C) and of g were determined from the EPR spectra at room temperature and at 66 K. The values of AT and Aiso in the thionitrosyl complexes were slightly higher than in the analogous nitrosyl complexes. A common feature in the optical absorption spectra of the thionitrosyl complexes in solution at 298 K is an absorption band around 600 nm with a vibronic structure whereas such a band is located around 450 nm in the analogous nitrosyl complexes. Density functional theory (DFT) studies of the series of complexes Cr(N)(H2O)52+, Cr(NO)(H2O)52+, Cr(NS)(H2O) 52+, and Cr(NSe)(H2O)52+ show that the unpaired electron resides in a metal-based dxy orbital and that the electronic structure in the equatorial plane is similar in all four complexes and similar to Cr3+. The σ donating ability was found in the order N3- ≫ NO < NS ≈ NSe and the α accepting ability in the order NO > NS ≈ NSe. Time dependent DFT calculations gave in all four complexes a dx2-y2←dxy transition energy around 17 500 cm-1.

AB - The novel S = 1/2 thionitrosyl complexes Cr(NS)(CN)5 3-, Cr(NS)(dmso)52+, and Cr(NS)(nmf) 52+ (dmso = dimethyl sulfoxide, nmf = N-methylformamide) have been prepared, and their optical and electron paramagnetic resonance (EPR) spectra were studied. The values of the isotropic and anisotropic hyperfine and superhyperfine coupling constants A(53Cr), A(14N), and A(13C) and of g were determined from the EPR spectra at room temperature and at 66 K. The values of AT and Aiso in the thionitrosyl complexes were slightly higher than in the analogous nitrosyl complexes. A common feature in the optical absorption spectra of the thionitrosyl complexes in solution at 298 K is an absorption band around 600 nm with a vibronic structure whereas such a band is located around 450 nm in the analogous nitrosyl complexes. Density functional theory (DFT) studies of the series of complexes Cr(N)(H2O)52+, Cr(NO)(H2O)52+, Cr(NS)(H2O) 52+, and Cr(NSe)(H2O)52+ show that the unpaired electron resides in a metal-based dxy orbital and that the electronic structure in the equatorial plane is similar in all four complexes and similar to Cr3+. The σ donating ability was found in the order N3- ≫ NO < NS ≈ NSe and the α accepting ability in the order NO > NS ≈ NSe. Time dependent DFT calculations gave in all four complexes a dx2-y2←dxy transition energy around 17 500 cm-1.

M3 - Journal article

SN - 0020-1669

VL - 49

SP - 8769

EP - 8778

JO - Inorganic Chemistry

JF - Inorganic Chemistry

ER -

Electron Paramagnetic Resonance Studies of Nitrosyl and Thionitrosyl and Density Functional Theory Studies of Nitrido, Nitrosyl, Thionitrosyl, and Selenonitrosyl Complexes of Chromium

Abstract

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