Conformational analysis of 1,3,6,2-dioxazaphosphocanes and 1,3,6,2-dioxazasilocanes

Zyablikova, T. A.; Ishmaeva, E. A.; Катаев, В. Е.; Vereshchagina, Ya. A.; Bazhanova, Z. G.; Il'yasov, A. V.; Terent'eva, S. A.; Pudovik, M. A.

doi:10.1007/s11176-005-0132-2

Cited by 5 publications

(8 citation statements)

References 28 publications

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“…Thus, transannular interactions N→P, N→Si, or P→Si are absent in 1,3,2,6-dioxasilaazacyclooctanes despite the favorable crown conformation. 3,15 This is evident from the absence of exaltation of the dipole moments as well as the data of NMR spectroscopy and theoretical calculations. Kemme and Bleidelis 16 have established the absence of transannular bonding for azadioxasilocin Ph 2 Si(OCH 2 CH 2 ) 2 NPh, though the geometrical parameters of its cycle (the crown conformation, N .…”

Section: Methodsmentioning

confidence: 95%

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Theoretical Conformational Analysis of Cyclic Organophosphorus and Organosilicon Compounds

Vereshchagina

Чачков

Ishmaeva

et al. 2011

Phosphorus, Sulfur, and Silicon and the Related Elements

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The structure of some six-and eight-membered phosphorus and silicon heterocycles was established by the method of dipole moments and density functional theory calculations. There are two necessary conditions for the feasibility of the transannular interaction in these heterocycles: (1) the favorable disposition of the donor and acceptor centers in a molecule and (2) the presence of the substituents with the considerable polarizing effect at the heteroatom.

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Section: Methodsmentioning

confidence: 95%

“…[1][2][3] However, interest in these compounds has not decreased. In the last 10 years, a search for new polyfunctional heterocyclic systems of phosphorus and silicon that present theoretical interest and can have useful properties has been conducted.…”

Section: Introductionmentioning

confidence: 99%

Theoretical Conformational Analysis of Cyclic Organophosphorus and Organosilicon Compounds

Vereshchagina

Чачков

Ishmaeva

et al. 2011

Phosphorus, Sulfur, and Silicon and the Related Elements

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“…This particular distance was sometimes used to deduce a transannular interaction between N and P when, as in dioxazaphosphocane 2, it was found shorter than the sum of the corresponding Van der Walls radii (3.4 Å). Even if this explanation has generated some controversy 4 , it is worth noting here that in the case of 4b and 4c the distance between N and P is too long and excludes any hypothetical transannular interaction. Therefore, as it was already observed in solution through NMR analysis, the atom doubly bonded to P (S, Se) and the replacement of the small H in 2 by the bulkier −OSiMe 3 group in 4b and 4c have no influence at all on the heterocyclic conformation in the solid state.…”

Section: X-ray Diffraction Analysis Of 4b and 4cmentioning

confidence: 94%

“…However, those eight-membered heterorings, named dioxoazaphosphocanes, are also interesting for conformational aspects and many researchers have worked on determining their ring conformation, the orientation of the exocyclic substituents and the presence of a hypothetical intramolecular transannular interaction between the N and P atoms 4 . Up to this point, the existing NMR and X-ray data analyses show a slight preference for the chair-chair (crown) conformation in saturated eight-membered phosphorus heterocycles 5 .…”

Section: Introductionmentioning

confidence: 99%

Synthesis and conformational study in solution and solid state of 1,3-dioxa-6-aza-2(O-trimethylsilyl ester)- and 1,3-dioxa-6-aza-2(hydroxy)-σ4λ4phosphacyclooctanes

Cárdenas¹,

Palma²,

Hernández³

et al. 2007

Arkivoc

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heterocycle in 4a-c adopts the crown conformation which is asymmetric due to the restrained amide rotation. The complete proton and carbon assignation of 5c was completed by running a 1 H{ 31 P} experiment and COSY, NOESY, and HETCOR experiments. The molecular structure of 4b and 4c determined by X-ray diffraction are identical and confirm the crown conformation. Compounds 4a-c react with methanol to give the corresponding 1,3-dioxa-6-aza-2(hydroxy)σ 4 λ 4 phosphacyclooctane oxide 5a, sulfide 5b and selenide 5c. The NMR analysis of the compounds shows that the heterocycle adopts the crown conformation in DMSO solutions. The crown conformation is also confirmed by the molecular structure of 5a, determined by X-ray diffraction, which further demonstrates the presence of a strong hydrogen bond between the phosphate hydroxyl and the carbonyl group of neighboring molecules. The existence of this strong intermolecular interaction which leads to the formation of infinite chains for 5a, is also established for 5b and 5c by IR analysis.

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“…New polyfunctional eight-membered heterocyclic systems are sought for, taking into account that some of them possess useful properties [5][6][7]. Such structures are characterized by versatile conformations and electronic interactions [8][9][10]; primarily, intramolecular dative interactions S→P, N→Si, S→Si, etc., are observed [11,12]. Interest in eight-membered heterocycles is also determined by their similarity to structural units of silicon derivatives of calix [4]arenes and thiacalix [4]arenes that are capable of selectively recognizing various species (see, e.g., [13][14][15]).…”

mentioning

confidence: 99%

Experimental and theoretical conformation analysis of eight-membered silocines with planar fragments

et al. 2010

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The dipole moments of 6-thia-4,5 : 6,7-dibenzo-1,3,2-dioxasilocines were determined experimentally and calculated at the DFT B3LYP/6-31G* level of theory and by the additivity scheme. The experimental and theoretical (DFT B3LYP/6-31G*) conformation analysis of eight-membered 1,3,2-dioxasilocines having planar fragments showed that these compounds in solution exist as boat-chair, boat-boat, or twist-boat conformers, depending on the presence of unsaturated planar fragment, nature of the heteroatom in position 6 of the eight-membered ring, and substituents on the silicon atom.I-IV, X = S: I, R 1 = R 2 = t-Bu, R 3 = H, R 4 = Me; II, R 1 = Me, R 2 = t-Bu, R 3 = R 4 = Me; III, R 1 = R 2 = t-Bu, R 3 R 4 = (CH 2 ) 4 ; IV, R 1 = Me, R 2 = t-Bu, R 3 = CH 2 =CH, R 4 = Ph;V, X = S=O, R 1 = R 2 = R 3 = Me, R 4 = Ph.Steric structure of eight-membered heterocyclic systems has been studied in sufficient detail by X-ray diffraction and NMR spectroscopy [1][2][3][4]. New polyfunctional eight-membered heterocyclic systems are sought for, taking into account that some of them possess useful properties [5][6][7]. Such structures are characterized by versatile conformations and electronic interactions [8-10]; primarily, intramolecular dative interactions S→P, N→Si, S→Si, etc., are observed [11,12]. Interest in eight-membered heterocycles is also determined by their similarity to structural units of silicon derivatives of calix[4]arenes and thiacalix[4]-arenes that are capable of selectively recognizing various species (see, e.g., [13][14][15]). In the present work we examined eight-membered 1,3,2-dioxasilocines I-V [16][17][18][19][20] as models for studying nucleophilic substitution at the silicon atom.We performed experimental and theoretical conformation analysis of silocines with planar aromatic fragments I-V by the dipole moment method and quantum-chemical calculations (DFT B3LYP/6-31G*). Planar unsaturated fragments in positions 4,5 and 7,8 of eight-membered 1,3,2-dioxasilocines I-V fix their geometry, providing the possibility for formation of

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Conformational analysis of 1,3,6,2-dioxazaphosphocanes and 1,3,6,2-dioxazasilocanes

Cited by 5 publications

References 28 publications

Theoretical Conformational Analysis of Cyclic Organophosphorus and Organosilicon Compounds

Theoretical Conformational Analysis of Cyclic Organophosphorus and Organosilicon Compounds

Synthesis and conformational study in solution and solid state of 1,3-dioxa-6-aza-2(O-trimethylsilyl ester)- and 1,3-dioxa-6-aza-2(hydroxy)-σ4λ4phosphacyclooctanes

Experimental and theoretical conformation analysis of eight-membered silocines with planar fragments

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