Search results for "Cyclohexane conformation"

showing 10 items of 52 documents

Ferromagnetic Cu(II)4, Co(II)4, and Ni(II)6 azido complexes derived from metal-assisted methanolysis of di-2,6-(2-pyridylcarbonyl)pyridine.

2009

Reaction of copper(II) perchlorate with di-2,6-(2-pyridylcarbonyl)pyridine (pyCOpyCOpy, dpcp) in the presence of sodium azide yields complex [Cu(4)(N(3))(2){pyC(OMe)(O)pyC(OMe)(O)py}(2)(MeOH)(2)](ClO(4)) x 2 MeOH (1 x 2 MeOH), which crystallizes in the monoclinic P2(1)/c space group. Similar reaction of cobalt(II) nitrate yields complex [Co(4)(N(3))(2)(NO(3))(2){pyC(OMe)(O)pyC(OMe)(O)py}(2)] x 0.5 MeOH (2 x 0.5 MeOH) which crystallizes in the monoclinic I2/m space group. Reaction of nickel(II) perchlorate yields complex [Ni(6)(CO(3))(N(3))(6){pyCOpyC(O)(OMe)py}(3)(MeOH)(2)(H(2)O)][Ni(6)(CO(3))(N(3))(6){pyCOpyC(O)(OMe)py}(3) (MeOH)(3)](ClO(4))(2) x 1.8 MeOH (3 x 1.8 MeOH), which crystallizes…

Models MolecularChemistryStereochemistryPyridinesCyclohexane conformationTemperaturechemistry.chemical_elementCobaltCrystallography X-RayMagnetic susceptibilityInorganic ChemistryPerchloratechemistry.chemical_compoundNickelCrystallographyMagneticsDeprotonationCubaneNickelPyridineOrganometallic CompoundsPhysical and Theoretical ChemistryCopperMonoclinic crystal systemInorganic chemistry
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Crystal structure of lactitol (4-O-beta-D-galactopyranosyl-D-glucitol).

1992

Abstract Lacitol, C 12 H 24 O 11 , is monoclinic, space group P 2 1 with cell dimensions a = 7.614(1), b = 10.757(1), c = 9.370(1) A, β = 108.19(1)°, and V = 729.0(1) A 3 ; Z = 2, D x = 1.57 Mg.m −3 , λ(Cu- K α ) = 1.5406 A, μ = 1.166 mm −1 , F (000) = 368, and T = 23°. The structure was solved by direct methods and refined by least-squares calculations to R = 0.048 for 1510 unique observed reflections. There are one intra- and eight inter-molecular hydrogen bonds in the structure. Bond lengths and angles accord well with the mean values of related structures. The galactopyranosyl ring has a chair conformation.

Models MolecularLactitolHydrogen bondStereochemistryOrganic ChemistryCyclohexane conformationMolecular Sequence DataHydrogen BondingGeneral MedicineCrystal structureRing (chemistry)BiochemistryAnalytical ChemistryBond lengthchemistry.chemical_compoundCrystallographySugar AlcoholschemistryCarbohydrate SequenceX-Ray DiffractionD-glucitolCarbohydrate ConformationSoftwareMonoclinic crystal systemCarbohydrate research
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Synthesis and characterization of 4,6-O-butylidene-N-(2-hydroxybenzylidene)-beta-D-glucopyranosylamine: crystal structures of 4,6-O-butylidene-alpha-…

2002

4,6-O-Butylidene-N-(2-hydroxybenzylidene)-β-D-glucopyranosylamine was synthesized and characterized using analytical, spectral and single-crystal X-ray diffraction methods. 1H and 13C NMR studies showed the presence of the β-anomer, which has also been confirmed by the crystal structure. The molecular structure of this compound showed the presence of the tridentate ONO ligation-core. Both precursors, 4,6-O-butylidene-α-D-glucopyranose and 4,6-O-butylidene-β-D-glucopyranosylamine were characterized using single crystal X-ray diffraction. The α-anomeric nature of the former and β-anomeric nature of the latter were proposed based on 1H NMR studies and were confirmed by determining the crystal …

Models MolecularMagnetic Resonance SpectroscopyStereochemistryCharacterizationCyclohexane conformationCrystal structureGlycosyl amines010402 general chemistryCrystallography X-Ray01 natural sciencesBiochemistryAnalytical ChemistrySingle-crystal X-ray diffractionX-Ray DiffractionCarbohydrate ConformationMoleculePyransGlucosamineMolecular Structure010405 organic chemistryChemistryHydrogen bondOrganic ChemistryHydrogen BondingGeneral Medicine[CHIM.MATE]Chemical Sciences/Material chemistry3. Good health0104 chemical sciencesCrystallographyIntramolecular forceX-ray crystallographyProton NMRCrystal StructureSingle crystal
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Synthesis, characterisation and crystal structures of Schiff bases from the reaction of 4,6-O-ethylidene-β-D-glucopyranosylamine with substituted sal…

2001

Multiple chemical modifications were carried out on D-glucose to result in the corresponding Schiff bases. Such modifications performed on D-glucose not only helped in increasing the solubility of the products in nonaqueous solvents, but also restricted the anomerisation of the saccharide moiety in solution. NMR study of the products revealed the presence of the β-anomeric form of the saccharide moiety in Me2SO solution. All the compounds were characterised by analytical and spectral methods. The literature is devoid of any crystal structures of saccharide–Schiff base combinations of the type reported in this paper. The crystal structures of these molecules exhibited a tridentate, ONO bindi…

Models MolecularMagnetic Resonance SpectroscopyStereochemistryNuclear Magnetic ResonanceCyclohexane conformationStereoisomerismCrystal structureCrystallography X-RayBiochemistryHeterocyclic Compounds 2-RingAnalytical ChemistrySpectroscopy Fourier Transform InfraredCarbohydrate ConformationMoleculeMoietySolubilitySchiff BasesAldehydesGlucosamineChemistryHydrogen bondOrganic CompoundsOrganic ChemistryHydrogen BondingStereoisomerismGeneral MedicineNuclear magnetic resonance spectroscopyCrystallographyGlucoseSolubilitySpectrophotometryCrystal StructureSolventsIndraStra Global
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Conformational changes in Cmethyl-resorcinarene pyridine N -oxide inclusion complexes in the solid state

2016

Aromatic N-oxides interact with Cmethyl-resorcinarene resulting in marked changes in the conformation of the host resorcinarene. In the solid state, 2- and 3-methylpyridine N-oxides form pseudo-capsular 2 : 2 endo host-guest complexes with Cmethyl-resorcinarene stabilized by C-H⋯π interactions. The Cmethyl-resorcinarene·2-methylpyridine N-oxide complex has a C4v crown conformation, while the Cmethyl-resorcinarene·3-methylpyridine N-oxide complex has a slightly open C2v boat conformation. On the contrary, other para-substituted and benzo-fused pyridine N-oxides form only exo complexes with Cmethyl-resorcinarene. In the exo complexes, the asymmetry of the guest, conformational flexibility and…

N-oxidesHydrogenta114010405 organic chemistryChemistryStereochemistryHydrogen bondCyclohexane conformationSolid-statechemistry.chemical_elementPyridine-N-oxidemacromolecular substancesGeneral ChemistryResorcinarene010402 general chemistryCondensed Matter Physics01 natural sciences0104 chemical sciencesCrystallographychemistry.chemical_compoundPyridineGeneral Materials ScienceN-oxide inclusion complexesta116CRYSTENGCOMM
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On structural phase transitions in the (C 5 H 12 N) 2 SbCl 5 crystals

2000

Abstract The results of the X-ray (at 295 and 355 K), dilatometric, differential scanning calorimetry and dielectric studies on a new piperidinium crystal, (C5H12N)2SbCl5, are presented. The anionic sublattice of the crystal is built up of infinite (SbCl52−)n chains composed of SbCl63− distorted octahedra connected with each other by corners. In voids of anionic sublattice two crystallographically independent piperidinium cations are located. At 295 K they are both in chair conformation. The compound undergoes three first-order phase transitions at 378.5 K (I→II), 339.5 K (II→III) and 205 K (III→IV). The mechanism of the (II→III) transition (Pna21→P212121) was proposed based on the X-ray da…

Phase transitionChemistryOrganic ChemistryCyclohexane conformationDielectricAnalytical ChemistryInorganic ChemistryCrystalCrystallographyDifferential scanning calorimetryOctahedronPhase (matter)X-ray crystallographySpectroscopyJournal of Molecular Structure
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Crystal structure of (1S,2R,4S)-1-[(morpholin-4-yl)methyl]-4-(prop-1-en-2-yl)cyclohexane-1,2-diol

2014

Besides intra­molecular O—H⋯N hydrogen bonds, the crystal structure displays inter­molecular O—H⋯O and C—H⋯O hydrogen bonds linking the mol­ecules into undulating layers parallel to the (01) plane.

Quantitative Biology::Biomoleculescrystal structureCrystallographyHydrogen bondDiolCyclohexane conformationAbsolute configurationGeneral ChemistryCrystal structureCondensed Matter Physicschiral ligand for catalytic enantioselective transformationsResearch CommunicationsHexaneCrystalchemistry.chemical_compoundCrystallographychemistryQD901-999Morpholinehydrogen bondschiral ligand for catalytic enanti­oselective transformationsGeneral Materials SciencePhysics::Chemical Physicsamino-12-diolActa Crystallographica Section E: Crystallographic Communications
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Crystal structure of 5′′-(4-chlorobenzylidene)-4′-(4-chlorophenyl)-1′-methyltrispiro[acenapthylene-1,2′-pyrrolidine-3′,1′′-cyclohexane-3′′,2′′′-[1,3]…

2015

In the title compound, C36H29Cl2NO4, two spiro links connect the methyl-substituted pyrrolidine ring to the acenaphthylene and cyclohexanone rings. The cyclohexanone ring is further connected to the dioxalane ring by a third spiro junction. The five-membered ring of the acenaphthylen-1-one ring system adopts a flattened envelope conformation, with the ketonic C atom as the flap, whereas the dioxalane and pyrrolidine rings each have a twist conformation. The cyclohexenone ring assumes a boat conformation. An intramolecular C—H...O hydrogen-bond interaction is present. In the crystal, molecules are linked by non-classical C—H...O hydrogen bonds, forming chains extending parallel to theaaxis.

Quantitative Biology::Biomoleculescrystal structureMathematics::Commutative AlgebraChemistryStereochemistryHydrogen bondCyclohexane conformationGeneral ChemistryCrystal structurehydrogen bondingCondensed Matter PhysicsRing (chemistry)ace­naphthyl­eneAcenaphthyleneData ReportsPyrrolidinelcsh:ChemistryCrystalHexanechemistry.chemical_compoundlcsh:QD1-999acenaphthyleneGeneral Materials Sciencedioxalanespiro pyrrolidinesActa Crystallographica Section E Crystallographic Communications
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ChemInform Abstract: UEBER ARSEN-HALTIGE HETEROCYCLEN 3. MITT. KRISTALLSTRUKTUR VON 2,6-DIMETHYL-4,4-DIPHENYL-1,4-OXOARSENANIUMBROMID-MONOHYDRAT

1975

Abstract The crystal structure of the title compound has been determined from single crystal X-ray data and refined to a conventional R factor of 0.046. The coordination of the As atom is tetrahedral with a mean As—C distance of 1.92 A. The six-membered heterocycle has chair conformation with two equatorial methyl and one equatorial and one axial phenyl substituent. The transannular 1,4-As⋯O distance is 3.11 A, interactions are discussed. The connection of the structure is more van der Waals than ionic type. Some unspecific gaps are statistically occupied by one molecule of crystal water.

StereochemistryCyclohexane conformationSubstituentIonic bondingGeneral MedicineCrystal structurechemistry.chemical_compoundsymbols.namesakeCrystallographychemistrysymbolsMoleculevan der Waals forceSingle crystalChemischer Informationsdienst
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Selenium Imides:  77Se NMR Investigations of the SeCl2−tBuNH2 Reaction and X-ray Structures of Se3(NtBu)3, tBuNSe(μ-NtBu)2SO2, and tBuNSe(μ-NtBu)2SeO

2000

The reaction of SeCl2 with tert-butylamine in various molar ratios in THF at −78 °C has been investigated by 77Se NMR spectroscopy. In addition to the known Se−N heterocycles Se6(NtBu)2 (1) and Se9(NtBu)6 (2), the acyclic imidoselenium(II) dichlorides ClSe[N(tBu)Se]nCl (4, n = 1; 5, n = 2) and two new cyclic selenium imides [Se3(NtBu)2]n (3, n = 1 or 2) and Se3(NtBu)3 (6) have been isolated and identified. An X-ray analysis shows that 6 is a six-membered ring in a chair conformation with |d(Se−N)| = 1.833 A. Crystal data:  6, trigonal, P3c1, a = 9.8660(3) A, c = 20.8427(7) A, V = 1757.0(1) A3, Z = 6. The 1H, 13C, and 77Se NMR data for 1−6 are reported, and some reassignments of earlier lite…

StereochemistryCyclohexane conformationX-raychemistry.chemical_elementNuclear magnetic resonance spectroscopyRing (chemistry)TolueneDecompositionInorganic Chemistrychemistry.chemical_compoundCrystallographychemistryCrystal dataPhysical and Theoretical ChemistrySeleniumInorganic Chemistry
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