Search results for "Silanol"

showing 8 items of 58 documents

Net charge and polarizability of zeolitic Brønsted acidic sites

2007

The interacting induced-dipoles polarization model, implemented in our program POLAR, is used for the calculation of the effective polarizability of the zeolitic bridged OH group, which results much higher than that of the free silanol group. A high polarizability is also calculated for the bridged OH group with a Si4+, in the absence of Lewis-acid promotion of silanol by Al3+. The crystal polarizability is estimated from the Clausius-Mossotti relationship. Siliceous zeolites are low-permittivity isolators. The interaction of a weak base with the zeolitic OH can be considered as a local bond. Only when cations are located in the zeolite micropore, next to tetrahedra that contain trivalent c…

biologyChemistryInorganic chemistryActive siteMicroporous materialCondensed Matter PhysicsAtomic and Molecular Physics and OpticsSilanolchemistry.chemical_compoundPolarizabilitybiology.proteinPhysical chemistryPhysical and Theoretical ChemistryPolarization (electrochemistry)Weak baseZeoliteBrønsted–Lowry acid–base theoryInternational Journal of Quantum Chemistry

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CCDC 795475: Experimental Crystal Structure Determination

2011

Related Article: M.Ventura, C.R.de Arellano, M.E.G.Mosquera, G.Jimenez, T.Cuenca|2011|Dalton Trans.|40|5728|doi:10.1039/c0dt01393e

bis(mu~2~-eta^5^-dimethyl(2345-tetramethylcyclopenta-13-dien-1-yl)silanolato)-(mu~2~-oxo)-dichloro-di-titaniumSpace GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates

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Effect of buffer nature and concentration on the chromatographic performance of basic compounds in the absence and presence of 1-hexyl-3-methylimidaz…

2019

Abstract In reversed-phase liquid chromatography, the performance for basic compounds is affected by the interaction of the protonated (cationic) species with the anionic free silanols on the alkyl-bonded stationary phases. Using aqueous-organic mobile phases in the absence of additives, the retention may be too high, and the peaks be broad and asymmetric. The performance is improved by addition to the mobile phase of ionic liquids, from which 1-hexyl-3-methylimidazolium chloride ([C6MIm][Cl]) has especially good characteristics. A recent report has also revealed that the use of the phosphate system as buffer, at varying concentration and pH, may have a significant role in the chromatograph…

buffer systemsAcetonitrilesAdrenergic beta-AntagonistsIonic LiquidsProtonationBuffers010402 general chemistry01 natural sciencesBiochemistryChlorideAnalytical Chemistryionic liquidschemistry.chemical_compoundreversed-phase liquid chromatographyBoratesmedicineFormateβ-Adrenoceptor antagonistsChromatography High Pressure LiquidChromatography Reverse-PhaseChromatography010401 analytical chemistryOrganic ChemistryCationic polymerizationImidazolesWatersilanol effectGeneral MedicineReversed-phase chromatographyHydrogen-Ion ConcentrationPhosphate0104 chemical sciencesSilanolchemistryIonic liquidSolventsmedicine.drug

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Silanol suppressing potency of alkyl-imidazolium ionic liquids on C18 stationary phases

2011

Residual silanols on C18 columns yield undesirable slow-kinetics ion-exchange interactions with positively charged basic compounds that result in asymmetrical peaks, low efficiencies and long retention times. The purity of the silica employed as supporting material, and the technique used to form the bonded phase, which varies with the brand and manufacturer, give rise to different amounts of residual silanols in the packings, and consequently, different chromatographic performance. One of the most efficient and widespread strategies to reduce or even eliminate the different performance among columns is the addition of a reagent to the mobile phase to block the silanol sites. However, the i…

chemistry.chemical_classificationAcetonitrilesChromatographyTetrafluoroborateAdrenergic beta-AntagonistsOrganic ChemistryImidazolesIonic LiquidsGeneral MedicineSilanesBiochemistryAnalytical Chemistrychemistry.chemical_compoundSilanolAdsorptionchemistryYield (chemistry)ReagentPhase (matter)Ionic liquidAlkylChromatography LiquidJournal of Chromatography A

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Epoxidation of Olefins with a Silica-Supported Peracid

2012

Anhydrous [2-percarboxyethyl] functionalized silica (2a) is an advantageous oxidant for performing the epoxidation of olefins 1. Epoxides 3 do not undergo the ring-opening reactions catalyzed by the acidic silica surface, except for particularly activated cases such as styrene oxide. The hydrophilic and acidic character of the silica surface does not interfere with the directing effects exerted by allylic H-bond acceptor substituents. The alkenes 1 carrying hydroxyl groups react with silica-supported peracid 2a faster than unsubstituted alkenes, thus reversing the trend known for reactions with soluble peracids. These results are attributed to the H-bond interactions of substrate 1 with the…

chemistry.chemical_classificationAllylic rearrangementMolecular StructureChemistryCarboxylic acidOrganic ChemistrySubstrate (chemistry)AlkenesSilicon DioxideAcceptorCatalysisSilanolchemistry.chemical_compoundStyrene oxideAnhydrousEpoxy CompoundsOrganic chemistryThe Journal of Organic Chemistry

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A model for polybutadiene coatings on porous silica

1993

Non-wetting viscous liquids such as oligobutadiene prefer “active” sites such as pores during the process of physisorption. Thus, polybutadiene (PBD) coatings on porous silica do not result in a homogeneous polymer film but in an inhomogeneous loading where the bulk polymer is mainly sited in the pores of the silica. An increasing polymer loading leads to increasingly filled pores instead of a thicker polymer film. We cannot exclude the possibility that most of the surface is covered at least with a thin polymer film since the chromatographic behaviour is relatively good for polypeptides, which are highly susceptible to the silanol groups of silica.

chemistry.chemical_classificationMagic angleOrganic ChemistryClinical BiochemistryPolymerViscous liquidBiochemistryAnalytical ChemistrySilanolchemistry.chemical_compoundPolybutadienechemistryPhysisorptionChemical engineeringHomogeneousOrganic chemistryPorosityChromatographia

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ChemInform Abstract: Epoxidation of Olefins with a Silica-Supported Peracid.

2012

chemistry.chemical_classificationSilanolchemistry.chemical_compoundAllylic rearrangementchemistryCarboxylic acidStyrene oxidePolymer chemistryAnhydrousSubstrate (chemistry)General MedicineAcceptorCatalysisChemInform

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Effect of Heat on the Adsorption Properties of Silica Gel

2012

Published version of an article in the journal: International Journal of Engineering and Technology. Also available from the publisher at: http://www.ijetch.org/papers/416-T886.pdf Open access. Adsorption properties of silica gel have been attributed to the surface hydroxyl groups of silica gel. Some hydroxyl groups are free standing and called free silanol groups. Some are hydrogen bonded to neighbouring silanol groups. Christy has shown that a high silanol number and a balanced concentration proportionality between these two different types of hydroxyl groups is necessary for effective adsorption of water molecules. Thermal treatment of silica gel samples alters the proportions of these g…

second derivative profileschemistry.chemical_compoundAdsorptionMaterials scienceVDP::Mathematics and natural science: 400::Chemistry: 440chemistryChemical engineeringsilanol groupsadsorption NIR spectroscopySilica gelGeneralLiterature_REFERENCE(e.g.dictionariesencyclopediasglossaries)International Journal of Engineering and Technology

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