Search results for "Epoxy"

showing 10 items of 384 documents

CCDC 203130: Experimental Crystal Structure Determination

2004

Related Article: A.Abad, C.Agullo, A.C.Cunat, A.B.Garcia, C.Gimenez-Saiz|2003|Tetrahedron|59|9523|doi:10.1016/j.tet.2003.10.017

Space GroupCrystallographyCrystal SystemCrystal StructureCell Parameters7alpha-Acetyl-9alpha11alpha-epoxyspongi-13-en-16-oneExperimental 3D Coordinates

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CCDC 298656: Experimental Crystal Structure Determination

2008

Related Article: G.Casella, T.Fiore, E.Foresti, M.M.A.Mohamed, L.Nagy, C.Pellerito, M.Scopelliti, L.Pellerito|2008|Inorg.Chim.Acta|361|1754|doi:10.1016/j.ica.2006.11.013

Space GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinatescatena-((mu~3~-(1R2S)-12-Epoxypropylphosphonato-OO'O'')-hexamethyl-di-tin(iv))

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CCDC 892597: Experimental Crystal Structure Determination

2013

Related Article: C.Lohoelter, D.Schollmeyer, S.R.Waldvogel|2012|Eur.J.Org.Chem.|2012|6364|doi:10.1002/ejoc.201200970

Space GroupCrystallographyCrystal SystemCrystal StructureCell ParametersMethyl 13-methyl-15-oxo-1617-epoxykauran-18-oateExperimental 3D Coordinates

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CCDC 273847: Experimental Crystal Structure Determination

2007

Related Article: I.Kanizsai, F.Miklos, P.Sohar, A.Csampai, R.Sillanpaa, G.Stajer|2007|J.Mol.Struct.|831|37|doi:10.1016/j.molstruc.2006.07.019

Space GroupCrystallographyCrystal SystemCrystal StructureCell Parametersdiexo-octahydro-5a-(4-methylphenyl)-14-epoxy-diexo-69-methano-diexo-5H12H-isoindolo[12-b]quinazolin-10-oneExperimental 3D Coordinates

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CCDC 285494: Experimental Crystal Structure Determination

2007

Related Article: I.Kanizsai, F.Miklos, P.Sohar, A.Csampai, R.Sillanpaa, G.Stajer|2007|J.Mol.Struct.|831|37|doi:10.1016/j.molstruc.2006.07.019

Space GroupCrystallographyCrystal Systemdiendo-octahydro-5a-(4-methylphenyl)-14-epoxy-diexo-69-methano-diexo-5H12H-isoindolo[12-b]quinazolin-10-oneCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 1532063: Experimental Crystal Structure Determination

2017

Related Article: Benedict Kemper, Maximilian von Gröning, Vanessa Lewe, Daniel Spitzer, Tobias Otremba, Natascha Stergiou, Dieter Schollmeyer, Edgar Schmitt, Bart Jan Ravoo, Pol Besenius|2017|Chem.-Eur.J.|23|6048|doi:10.1002/chem.201700588

Space GroupCrystallography[3-(13-dioxo-133a477a-hexahydro-2H-47-epoxyisoindol-2-yl)prop-1-yn-1-yl]-(triphenylphosphane)-gold(i)Crystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 209077: Experimental Crystal Structure Determination

2004

Related Article: F.Miklos, I.Kanizsai, S.Thomas, E.Kleinpeter, R.Sillanpaa, G.Stajer|2004|Heterocycles|63|63|doi:10.3987/COM-03-9916

Space GroupCrystallographydiexo-1-hydroxy-1-p-tolylhexahydro-47-epoxybenzofuran-3-oneCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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CCDC 273848: Experimental Crystal Structure Determination

2007

Related Article: I.Kanizsai, F.Miklos, P.Sohar, A.Csampai, R.Sillanpaa, G.Stajer|2007|J.Mol.Struct.|831|37|doi:10.1016/j.molstruc.2006.07.019

Space GroupCrystallographydiexo-octahydro-5a-(4-methylphenyl)-14-epoxy-diexo-69-methano-diexo-5H12H-isoindolo[12-b]quinazolin-10-one ethanol solvate hydrateCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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Effect of UD carbon on the specific mechanical properties of glass mat composites for marine applications

2009

In this work the influence of a uniaxial carbon fabric layer on the mechanical performances of a glass mat/epoxy composite used for marine applications has been studied. All the structures have been made, at room temperature, by vacuum bagging technique. Tension and flexural tests have been carried out in order to evaluate the specific mechanical properties of the composite and to compare these with those of the marine aluminium alloy 6016-T4. The glass composites have higher specific strength but lower specific modulus than aluminium alloy. To increase the specific modulus of the composites, each layer of glass mat has been replaced with a layer of uniaxial carbon fabric. In addition, a s…

Specific modulusMaterials scienceTension (physics)Specific propertyMechanical EngineeringComposite numberFiber orientationHybrid compositeEpoxyFEA; Fiber orientation; Hybrid composite; Specific property; Vacuum baggingSpecific strengthVacuum baggingSettore ING-IND/22 - Scienza E Tecnologia Dei MaterialiFlexural strengthMechanics of Materialsvisual_artMaterials ChemistryCeramics and Compositesvisual_art.visual_art_mediumAluminium alloyComposite materialLayer (electronics)FEA

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Epoxy-Acetogenins and other Polyketide Epoxy Derivatives as Inhibitors of the Mitochondrial Respiratory Chain Complex I

2000

Annonaceous acetogenins (ACG), an extensive group of cytotoxic natural products, are antitumor agents whose main mode of action is inhibition of the mammalian mitochondrial complex I. Herein we describe the importance of the different chemical groups along the alkyl chain for optimal inhibitory potency, discussing the structurally relevant factors present in these compounds. For this purpose, a series of epoxide derivatives from alpha-linolenic acid were prepared and their activity compared with that of epoxy-acetogenins and tetrahydrofuranic (THF) acetogenins isolated from Rollinia membranacea.

StereochemistryChemical structurePharmaceutical ScienceEpoxideAnalytical ChemistryElectron TransportLactonesPolyketidechemistry.chemical_compoundDrug DiscoveryNADH NADPH OxidoreductasesMitochondrial respiratory chain complex IFuransMode of actionAlkylPharmacologychemistry.chemical_classificationbiologyOrganic ChemistryEpoxybiology.organism_classificationMitochondriaComplementary and alternative medicinechemistryAnnonaceaevisual_artvisual_art.visual_art_mediumEpoxy CompoundsMolecular MedicinePlanta Medica

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