<sup>63</sup>Cu FT-NMR Studies of Tetrahedral Copper(I)-Phosphorus Complexes

Kroneck, Peter M. H.; Lutz, O.; Nolle, A.; Oehler, H.

doi:10.1515/zna-1980-0208

Cited by 28 publications

(17 citation statements)

References 11 publications

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“…Because phospholane is a better σ donor than triphenylphosphine, a 1 J PCu value of ∼775 Hz is consistent with reported trends. By comparison, the reported 1 J PCu value for [Cu{P(OCH 3 ) 3 } 4 ]ClO 4 is 1223 Hz . A 63 Cu{ 1 H} NMR spectrum of complex 3 was also recorded and correlates well with the results obtained from the 31 P{ 1 H} NMR spectrum (see Supporting Information).…”

Section: Resultssupporting

confidence: 90%

“…It shows a broad quintet at 284.2 ppm with a 1 J CuP value of 780 Hz, a more precise value than that obtained from the 31 P{ 1 H} NMR spectrum. The signal pattern is in agreement with published data . Even though the ESI(+) mass spectrum of 3 shows only fragmentation peaks, the 31 P{ 1 H} and 63 Cu NMR spectra indicate that the box-type structure is retained in solution.…”

Section: Resultsmentioning

confidence: 99%

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Copper(I) Complexes of a Flexible Bis-phospholane Ligand: Route to Paddle-Wheel- and Box-Type Macrocycles

et al. 2017

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Two bis-phospholane copper(I) metallamacrocycles were selectively synthesized starting from the same two building blocks, namely, ligand 1 and [Cu(NCCH)]BF. Reaction conditions (ligand:metal (L:M) ratio and dilution) can be tuned to obtain either a paddle-wheel- (2, L:M = 3:2) or box-type complex (3, L:M = 8:4). Their structures were unequivocally determined by X-ray crystallography. The solution P{H} NMR spectrum of complex 2 consists of a broad signal, as is common for such complexes, whereas complex 3 shows splitting of the P{H} NMR signal into a pseudoquartet due to Cu-P coupling, a rare occurrence exhibited only by highly symmetrical copper(I) phosphine complexes.

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Section: Resultssupporting

confidence: 90%

Section: Resultsmentioning

confidence: 99%

Copper(I) Complexes of a Flexible Bis-phospholane Ligand: Route to Paddle-Wheel- and Box-Type Macrocycles

et al. 2017

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“…35 Consequently only complexes with regular tetrahedral or cubic symmetry are NMR active. 36 We have chosen to use mainly 63 Cu NMR spectroscopy to be able to make comparisons with previous studies. The line widths of the 63 Cu NMR signals are, in addition to the quadrupole moment effects, solvent and anion dependent, and also dependent on the presence of water and copper(), both of them broadening the line width.…”

Section: Methodsmentioning

confidence: 99%

“…Neither 63 Cu nor 65 Cu NMR signals could be observed from the complexes of copper() in triphenyl phosphite and tri-n-butylphosphine in spite of cooling. The absence of NMR signals for some of the copper() phosphite species have earlier been explained by equilibria with two-or three-coordinated species, 36 and large ligand cone angles 25 have been considered to cause steric hindrance within regular T d symmetry. The absence of NMR signals strongly indicates that the configuration around copper() deviates significantly from a regular tetrahedron.…”

Section: Copper(i) In Trialkyl and Triphenyl Phosphite And Tri-n-buty...mentioning

confidence: 99%

The coordination chemistry of copper(i) in liquid ammonia, trialkyl and triphenyl phosphite, and tri-n-butylphosphine solution

Nilsson

Persson

2004

Dalton Trans.

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The coordination chemistry of the solvate complexes of the relatively soft electron-pair acceptor copper(I) has been studied in solution and solid state in seven solvents with strong electron-pair donor properties, liquid ammonia, trimethyl, triethyl, triisopropyl, tri-n-butyl and triphenyl phosphite, and tri-n-butylphosphine. The solvate complexes have been characterised by means of EXAFS and 63Cu NMR spectroscopy, and in some cases also by 65Cu NMR spectroscopy. The copper(I) ion is three-coordinated, most probably in a coplanar trigonal fashion, in liquid ammonia with a mean Cu-N bond distance of 2.00(1) Angstroms. No 63Cu NMR signal has been detected from the ammonia solvated copper(I) ion in liquid ammonia, which supports a three-coordination. The phosphite and phosphine solvated copper(I) ions are tetrahedral with Cu-P bond distances in the range 2.24-2.28 Angstrom in both solution and solid state as determined by EXAFS spectroscopy. The tetrahedral configuration of these complexes has been confirmed by 63Cu and 65Cu NMR spectroscopy through the J(63Cu-31P) and J(65Cu-31P) couplings. The fact that two of the investigated complexes, [Cu(P(OC6H5)3)4]+ and [Cu(P(C4H9)3)4]+, are 63Cu and 65Cu NMR silent is probably caused by a significantly angular distorted tetrahedral configuration.

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“…The nuclear spin of 63 Cu ( I = 3 / 2 ) accelerates the quadrupole relaxation of copper(I) in a lower symmetrical environment. For example, some CuL 4 type tetrahedral complexes show well-shaped signals with narrow line width. − But digonal and trigonal copper(I) species usually cannot be detected by 63 Cu NMR, and even CuL 3 L‘ type tetrahedral complexes give very broad resonance lines because of the reduced symmetry. ,, …”

Section: Introductionmentioning

confidence: 99%

⁶³Cu NMR Study of Copper(I) Carbonyl Complexes with Various Hydrotris(pyrazolyl)borates: Correlation between⁶³Cu Chemical Shifts and CO Stretching Vibrations

et al. 1998

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Copper(I) carbonyl complexes with a series of hindered L R1,R2 ligands (L: hydrotris(pyrazolyl)borate, R1 and R2 are substituents at the 3-and 5-positions of the pyrazole ring, respectively), L R1,R2 CuCO [R1, R2 ) Me, Me (1), i-Pr, i-Pr (2), t-Bu, Me (3), t-Bu, i-Pr (4), Ph, i-Pr (5), Ph, Ph (6)] have been synthesized and characterized by 1 H NMR and IR spectroscopy and elemental analysis. The molecular structures of 3 and 6 have been determined by X-ray crystallography. The electronic structures of copper(I) sites are characterized by means of 63 Cu NMR spectroscopy and by the CtO stretching vibration. The sharp 63 Cu NMR signals are observed for L R1,R2 CuCO complexes in toluene at room temperature. The 63 Cu NMR signals of copper(I) complexes with alkyl-substituted ligands (1-4) are observed in lower field than those of the phenyl derivatives (5, 6) correlating with the electrondensity at the copper center. This argument is supported by the good correlation between the δ( 63 Cu) value and CtO stretching vibration which is a sensitive indicator of the extent of back-donation of the Cu d electrons to the antibonding CtO orbitals.

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⁶³Cu FT-NMR Studies of Tetrahedral Copper(I)-Phosphorus Complexes

Cited by 28 publications

References 11 publications

Copper(I) Complexes of a Flexible Bis-phospholane Ligand: Route to Paddle-Wheel- and Box-Type Macrocycles

Copper(I) Complexes of a Flexible Bis-phospholane Ligand: Route to Paddle-Wheel- and Box-Type Macrocycles

The coordination chemistry of copper(i) in liquid ammonia, trialkyl and triphenyl phosphite, and tri-n-butylphosphine solution

⁶³Cu NMR Study of Copper(I) Carbonyl Complexes with Various Hydrotris(pyrazolyl)borates: Correlation between⁶³Cu Chemical Shifts and CO Stretching Vibrations

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63Cu FT-NMR Studies of Tetrahedral Copper(I)-Phosphorus Complexes

Cited by 28 publications

References 11 publications

Copper(I) Complexes of a Flexible Bis-phospholane Ligand: Route to Paddle-Wheel- and Box-Type Macrocycles

Copper(I) Complexes of a Flexible Bis-phospholane Ligand: Route to Paddle-Wheel- and Box-Type Macrocycles

The coordination chemistry of copper(i) in liquid ammonia, trialkyl and triphenyl phosphite, and tri-n-butylphosphine solution

63Cu NMR Study of Copper(I) Carbonyl Complexes with Various Hydrotris(pyrazolyl)borates: Correlation between63Cu Chemical Shifts and CO Stretching Vibrations

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⁶³Cu FT-NMR Studies of Tetrahedral Copper(I)-Phosphorus Complexes

⁶³Cu NMR Study of Copper(I) Carbonyl Complexes with Various Hydrotris(pyrazolyl)borates: Correlation between⁶³Cu Chemical Shifts and CO Stretching Vibrations