1,16-Di-tert-butyl-1,16-diphospha[5.5]ferrocenophane: Synthesis, Reactions and Mössbauer Spectroscopy

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  • Hebrew University of Jerusalem (HUJI)
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OriginalspracheEnglisch
Seiten (von - bis)13132-13139
Seitenumfang8
FachzeitschriftChemistrySelect
Jahrgang3
Ausgabenummer46
PublikationsstatusVeröffentlicht - 10 Dez. 2018

Abstract

1,16-Di-tert-butyl-1,16-diphospha[5.5]ferrocenophane was prepared in 76% yield by deprotonation of 1,1’-di(2-tert-butylphosphanylethyl)ferrocene followed by treatment with 1,1’-di(2-bromoethyl)ferrocene. The ferrocenophane exists as a mixture of syn and anti diastereomers, which were separated by repeated precipitation of one of them. Reaction with borane afforded the respective borane adducts in 47% yield. Methylation with iodomethane gave the respective diphosphonium salt in quantitative yield. Oxidation with 1.0 or 5.0 equivalents of silver hexafloroantimonate gave a green and a blue material, respectively, presumably the mono and the diferrcenium salts. 1,16-Di-tert-butyl-1,16-diphospha[5.5]ferrocenophane and its oxidation products were subjected to a temperature-dependent Mössbauer effect (ME) study to elucidate their dynamical and paramagnetic relaxation characteristics. The ME data are consistent with the absence of spin averaging for the two distinct Fe sites in the monooxidation product over the temperature range 91<T<236 K. The metal atom vibrational amplitudes as a function of temperature have been determined for 1,16-di-tert-butyl-1,16-diphospha[5.5]ferrocenophane as well as for the diamagnetic site in the monooxidation product.

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1,16-Di-tert-butyl-1,16-diphospha[5.5]ferrocenophane: Synthesis, Reactions and Mössbauer Spectroscopy. / Werner, Irina; Heinisch, Sandra Lauren; Nowik, Israel et al.
in: ChemistrySelect, Jahrgang 3, Nr. 46, 10.12.2018, S. 13132-13139.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Werner I, Heinisch SL, Nowik I, Herber RH, Butenschön H. 1,16-Di-tert-butyl-1,16-diphospha[5.5]ferrocenophane: Synthesis, Reactions and Mössbauer Spectroscopy. ChemistrySelect. 2018 Dez 10;3(46):13132-13139. doi: 10.1002/slct.201802793
Werner, Irina ; Heinisch, Sandra Lauren ; Nowik, Israel et al. / 1,16-Di-tert-butyl-1,16-diphospha[5.5]ferrocenophane : Synthesis, Reactions and Mössbauer Spectroscopy. in: ChemistrySelect. 2018 ; Jahrgang 3, Nr. 46. S. 13132-13139.
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abstract = "1,16-Di-tert-butyl-1,16-diphospha[5.5]ferrocenophane was prepared in 76% yield by deprotonation of 1,1{\textquoteright}-di(2-tert-butylphosphanylethyl)ferrocene followed by treatment with 1,1{\textquoteright}-di(2-bromoethyl)ferrocene. The ferrocenophane exists as a mixture of syn and anti diastereomers, which were separated by repeated precipitation of one of them. Reaction with borane afforded the respective borane adducts in 47% yield. Methylation with iodomethane gave the respective diphosphonium salt in quantitative yield. Oxidation with 1.0 or 5.0 equivalents of silver hexafloroantimonate gave a green and a blue material, respectively, presumably the mono and the diferrcenium salts. 1,16-Di-tert-butyl-1,16-diphospha[5.5]ferrocenophane and its oxidation products were subjected to a temperature-dependent M{\"o}ssbauer effect (ME) study to elucidate their dynamical and paramagnetic relaxation characteristics. The ME data are consistent with the absence of spin averaging for the two distinct Fe sites in the monooxidation product over the temperature range 91",
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author = "Irina Werner and Heinisch, {Sandra Lauren} and Israel Nowik and Herber, {Rolfe H.} and Holger Butensch{\"o}n",
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T1 - 1,16-Di-tert-butyl-1,16-diphospha[5.5]ferrocenophane

T2 - Synthesis, Reactions and Mössbauer Spectroscopy

AU - Werner, Irina

AU - Heinisch, Sandra Lauren

AU - Nowik, Israel

AU - Herber, Rolfe H.

AU - Butenschön, Holger

N1 - © 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim

PY - 2018/12/10

Y1 - 2018/12/10

N2 - 1,16-Di-tert-butyl-1,16-diphospha[5.5]ferrocenophane was prepared in 76% yield by deprotonation of 1,1’-di(2-tert-butylphosphanylethyl)ferrocene followed by treatment with 1,1’-di(2-bromoethyl)ferrocene. The ferrocenophane exists as a mixture of syn and anti diastereomers, which were separated by repeated precipitation of one of them. Reaction with borane afforded the respective borane adducts in 47% yield. Methylation with iodomethane gave the respective diphosphonium salt in quantitative yield. Oxidation with 1.0 or 5.0 equivalents of silver hexafloroantimonate gave a green and a blue material, respectively, presumably the mono and the diferrcenium salts. 1,16-Di-tert-butyl-1,16-diphospha[5.5]ferrocenophane and its oxidation products were subjected to a temperature-dependent Mössbauer effect (ME) study to elucidate their dynamical and paramagnetic relaxation characteristics. The ME data are consistent with the absence of spin averaging for the two distinct Fe sites in the monooxidation product over the temperature range 91

AB - 1,16-Di-tert-butyl-1,16-diphospha[5.5]ferrocenophane was prepared in 76% yield by deprotonation of 1,1’-di(2-tert-butylphosphanylethyl)ferrocene followed by treatment with 1,1’-di(2-bromoethyl)ferrocene. The ferrocenophane exists as a mixture of syn and anti diastereomers, which were separated by repeated precipitation of one of them. Reaction with borane afforded the respective borane adducts in 47% yield. Methylation with iodomethane gave the respective diphosphonium salt in quantitative yield. Oxidation with 1.0 or 5.0 equivalents of silver hexafloroantimonate gave a green and a blue material, respectively, presumably the mono and the diferrcenium salts. 1,16-Di-tert-butyl-1,16-diphospha[5.5]ferrocenophane and its oxidation products were subjected to a temperature-dependent Mössbauer effect (ME) study to elucidate their dynamical and paramagnetic relaxation characteristics. The ME data are consistent with the absence of spin averaging for the two distinct Fe sites in the monooxidation product over the temperature range 91

KW - Diphosphane

KW - Ferrocenium

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KW - Mössbauer spectroscopy

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