Pressure-dependent luminescence spectroscopy of molybdenum(IV) oxo complexes

E. Lanthier; Jesper Bendix; C. Reber

Pressure-dependent luminescence spectroscopy of molybdenum(IV) oxo complexes

E. Lanthier, Jesper Bendix, C. Reber

Department of Chemistry

7 Citations (Scopus)

Abstract

Luminescence spectra are reported for trans-[MoOCl(CN-t-Bu) ₄]BPh₄ and trans-[MoOF(pyridine)₄]BPh ₄. The maxima of the broad luminescence bands are at energies of 12000 and 13000 cm^-1, respectively. Resolved vibronic structure involves the metal-oxo stretching mode with a vibrational frequency of approximately 950 cm^-1 (Raman) in both compounds. The pressure behavior of the luminescence bands shows a distinct difference: a blue shift of +12 cm^-1 kbar^-1 is observed for [MoOCl(CN-t-Bu) ₄]BPh₄, and a red-shift of -8 cm^-1 kbar ^-1 is obtained for [MoOF(pyridine)₄]BPh₄. At pressures above 25 kbar, the luminescence maximum of [MoOCl(CN-t-Bu) ₄]BPh₄ shows a change from a blue-shift to a red-shift and the Raman peak corresponding to the metal-oxo stretching mode at 954 cm ^-1 becomes broad and its maximum decreases with increasing pressure, leading to a strong deviation from the linear increase of +0.24 cm^-1 kbar^-1 observed at pressures below 25 kbar. These unusual pressure effects are rationalized in terms of the influence of pressure on the metal-ligand bonds and oxo-metal-ligand angles using DFT calculations.

Original language	English
Journal	Dalton Transactions (Print Edition)
Volume	39
Pages (from-to)	3695-3705
ISSN	1477-9226
Publication status	Published - 2010

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@article{4886d9e2ac744835a8558c3ca3a959ac,

title = "Pressure-dependent luminescence spectroscopy of molybdenum(IV) oxo complexes",

abstract = "Luminescence spectra are reported for trans-[MoOCl(CN-t-Bu) 4]BPh4 and trans-[MoOF(pyridine)4]BPh 4. The maxima of the broad luminescence bands are at energies of 12000 and 13000 cm-1, respectively. Resolved vibronic structure involves the metal-oxo stretching mode with a vibrational frequency of approximately 950 cm-1 (Raman) in both compounds. The pressure behavior of the luminescence bands shows a distinct difference: a blue shift of +12 cm-1 kbar-1 is observed for [MoOCl(CN-t-Bu) 4]BPh4, and a red-shift of -8 cm-1 kbar -1 is obtained for [MoOF(pyridine)4]BPh4. At pressures above 25 kbar, the luminescence maximum of [MoOCl(CN-t-Bu) 4]BPh4 shows a change from a blue-shift to a red-shift and the Raman peak corresponding to the metal-oxo stretching mode at 954 cm -1 becomes broad and its maximum decreases with increasing pressure, leading to a strong deviation from the linear increase of +0.24 cm-1 kbar-1 observed at pressures below 25 kbar. These unusual pressure effects are rationalized in terms of the influence of pressure on the metal-ligand bonds and oxo-metal-ligand angles using DFT calculations.",

author = "E. Lanthier and Jesper Bendix and C. Reber",

year = "2010",

language = "English",

volume = "39",

pages = "3695--3705",

journal = "Acta chemica Scandinavica. Series A: Physical and inorganic chemistry",

issn = "1477-9226",

publisher = "Royal Society of Chemistry",

}

TY - JOUR

T1 - Pressure-dependent luminescence spectroscopy of molybdenum(IV) oxo complexes

AU - Lanthier, E.

AU - Bendix, Jesper

AU - Reber, C.

PY - 2010

Y1 - 2010

N2 - Luminescence spectra are reported for trans-[MoOCl(CN-t-Bu) 4]BPh4 and trans-[MoOF(pyridine)4]BPh 4. The maxima of the broad luminescence bands are at energies of 12000 and 13000 cm-1, respectively. Resolved vibronic structure involves the metal-oxo stretching mode with a vibrational frequency of approximately 950 cm-1 (Raman) in both compounds. The pressure behavior of the luminescence bands shows a distinct difference: a blue shift of +12 cm-1 kbar-1 is observed for [MoOCl(CN-t-Bu) 4]BPh4, and a red-shift of -8 cm-1 kbar -1 is obtained for [MoOF(pyridine)4]BPh4. At pressures above 25 kbar, the luminescence maximum of [MoOCl(CN-t-Bu) 4]BPh4 shows a change from a blue-shift to a red-shift and the Raman peak corresponding to the metal-oxo stretching mode at 954 cm -1 becomes broad and its maximum decreases with increasing pressure, leading to a strong deviation from the linear increase of +0.24 cm-1 kbar-1 observed at pressures below 25 kbar. These unusual pressure effects are rationalized in terms of the influence of pressure on the metal-ligand bonds and oxo-metal-ligand angles using DFT calculations.

AB - Luminescence spectra are reported for trans-[MoOCl(CN-t-Bu) 4]BPh4 and trans-[MoOF(pyridine)4]BPh 4. The maxima of the broad luminescence bands are at energies of 12000 and 13000 cm-1, respectively. Resolved vibronic structure involves the metal-oxo stretching mode with a vibrational frequency of approximately 950 cm-1 (Raman) in both compounds. The pressure behavior of the luminescence bands shows a distinct difference: a blue shift of +12 cm-1 kbar-1 is observed for [MoOCl(CN-t-Bu) 4]BPh4, and a red-shift of -8 cm-1 kbar -1 is obtained for [MoOF(pyridine)4]BPh4. At pressures above 25 kbar, the luminescence maximum of [MoOCl(CN-t-Bu) 4]BPh4 shows a change from a blue-shift to a red-shift and the Raman peak corresponding to the metal-oxo stretching mode at 954 cm -1 becomes broad and its maximum decreases with increasing pressure, leading to a strong deviation from the linear increase of +0.24 cm-1 kbar-1 observed at pressures below 25 kbar. These unusual pressure effects are rationalized in terms of the influence of pressure on the metal-ligand bonds and oxo-metal-ligand angles using DFT calculations.

M3 - Journal article

SN - 1477-9226

VL - 39

SP - 3695

EP - 3705

JO - Acta chemica Scandinavica. Series A: Physical and inorganic chemistry

JF - Acta chemica Scandinavica. Series A: Physical and inorganic chemistry

ER -

Pressure-dependent luminescence spectroscopy of molybdenum(IV) oxo complexes

Abstract

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