Libor Kapička scite author profile

Libor Kapička

3Publications

19Citation Statements Received

91Citation Statements Given

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Masaryk University

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Base-Induced Dismutation of POCl₃ and POBr₃: Synthesis and Structure of Ligand-Stabilized Dioxophosphonium Cations

et al. 2004

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The interaction between POCl(3) or POBr(3) and pyridine or DMAP has been reinvestigated to clarify the discrepancies between previously published results concerning the Lewis acidity of phosphoryl halides and their behavior toward pyridine bases. The obtained results show that POCl(3) virtually does not react with pyridine, while it does with 4-(dimethylamino)pyridine (DMAP), even in SO(2) solution, to yield an ionic compound [(DMAP)(2)PO(2)]Cl.3SO(2) (1.3SO(2)). Its recrystallization from acetonitrile gives [(DMAP)(2)PO(2)]Cl.CH(3)CN (1.CH(3)CN). The POBr(3) reacts readily with both DMAP and pyridine forming the analogous tribromides, [(DMAP)(2)PO(2)]Br(3) (2) and [(py)(2)PO(2)]Br(3) (3), respectively. Treatment of 3 with Me(3)SiOSO(2)CF(3) in acetonitrile solution led to [(py)(2)PO(2)][CF(3)SO(3)].CH(3)CN (4), while the reaction between 1.CH(3)CN and Me(3)SiOPOF(2) gave [(DMAP)(2)PO(2)][PO(2)F(2)] (5). The crystal structures of 1.CH(3)CN, 1.3SO(2), 2, and 4 revealed that all four compounds are ionic containing the distorted tetrahedral cations [(DMAP)(2)PO(2)](+) and [(py)(2)PO(2)](+). Both ions represent a donor-stabilized form of the so far unknown cation [PO(2)](+). The geometry of [(DMAP)(2)PO(2)](+), optimized by density functional calculations at the B3LYP/6-31G(d,p) level, is in good agreement with X-ray structural data. The NBO analysis of natural atomic charges shows an extensive delocalization of the [PO(2)](+) intrinsic positive charge and indicates a contribution of the electrostatic attraction to the formation of N-P donor-acceptor bonds. According to a (31)P NMR study, the reactions of both phosphoryl halides with DMAP proceed via successive formation of the intermediates [(DMAP)POX(2)](+) and (DMAP)PO(2)X to give an equimolar mixture of [(DMAP)(2)PO(2)](+) and PX(5) (X = Cl, Br) as the end products. The NMR spectroscopic identification of the cations [(DMAP)POX(2)](+) and [(DMAP)(2)PO(2)](+) was supported by ab initio calculations of their chemical shifts.

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Bonding and aromaticity of cyclic phosphazenes viewed as interaction of Dnh fragments

Kapička

Kubáček

Holub

2007

Journal of Molecular Structure: THEOCHEM

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Analysis and calculation of the ³¹P and ¹⁹F NMR spectra of hexafluorocyclotriphosphazene

Kapička

Dastych

Richterová

et al. 2005

Magnetic Reson in Chemistry

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The higher order high-resolution (31)P and (19)F NMR spectra of hexafluorocyclotriphosphazene (F(2)PN)(3) were measured at 183 K and interpreted using subspectral analysis and iterative fitting computation. (F(2)PN)(3) forms a rigid nine-spin system [A[X](2)](3) with D(3h) symmetry. Two complete and very similar sets of six experimental spin-spin coupling constants, (1)J(P,F), (2)J(P,P), (2)J(F,F), (3)J(P,F), (4)J(F,F)(cis) and (4)J(F,F)(trans), were determined for the first time. Theoretical DFT calculations of chemical shifts and coupling constants were performed to assess their predictive value. The PP/aug-cc-pVDZ treatment rendered the best agreement with experimental data.

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Libor Kapička

Base-Induced Dismutation of POCl₃ and POBr₃: Synthesis and Structure of Ligand-Stabilized Dioxophosphonium Cations

Bonding and aromaticity of cyclic phosphazenes viewed as interaction of Dnh fragments

Analysis and calculation of the ³¹P and ¹⁹F NMR spectra of hexafluorocyclotriphosphazene

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Libor Kapička

Base-Induced Dismutation of POCl3 and POBr3: Synthesis and Structure of Ligand-Stabilized Dioxophosphonium Cations

Bonding and aromaticity of cyclic phosphazenes viewed as interaction of Dnh fragments

Analysis and calculation of the 31P and 19F NMR spectra of hexafluorocyclotriphosphazene

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Product

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About

Base-Induced Dismutation of POCl₃ and POBr₃: Synthesis and Structure of Ligand-Stabilized Dioxophosphonium Cations

Analysis and calculation of the ³¹P and ¹⁹F NMR spectra of hexafluorocyclotriphosphazene