Search results for "Van der Waals force"

showing 10 items of 170 documents

Spectrophotometric determinations of binding constants between cyclodextrins and aromatic nitrogen substrates at various pH values

2001

The inclusion capacity of native β-cyclodextrin (1) and mono-(6-amino-6-deoxy)-β-cyclodextrin (2) versus aromatic compounds having a nitro or an amino group or both has been investigated at three different pH values. Molecular interactions in inclusion complexes have also been investigated by means of molecular mechanics (MM2/QD) models. Electrostatic and van der Waals interactions and the formation of a hydrogen bond between the donor amino group and the oxygen atom of the secondary hydroxyl group seem to be the more important contributions in determining complex stability. The inclusion capacity of two different cyclodextrins versus aromatic compounds has been investigated at three differ…

chemistry.chemical_classificationMolecular interactionsChemistryHydrogen bondOrganic Chemistrychemistry.chemical_elementSettore CHIM/06 - Chimica OrganicaBiochemistryNitrogenMolecular mechanicscyclodextrins inclusion molecular mechanicssymbols.namesakeComputational chemistryGroup (periodic table)Drug DiscoveryNitrosymbolsOrganic chemistryNon-covalent interactionsvan der Waals forceTetrahedron
researchProduct

Complexation of phosphine ligands with peracetylated β-cyclodextrin in supercritical carbon dioxide: spectroscopic determination of equilibrium const…

2007

The interaction between peracetylated beta-cyclodextrin and several triphenyl phosphine derivatives was studied in supercritical carbon dioxide (scCO2) by UV-visible spectroscopy. The equilibrium constant for a 1:1 complexation reaction was obtained from titration spectra and calculated using two established mathematical models. The values of the equilibrium constants are 1-3 orders of magnitude smaller than those obtained in aqueous solution with analogous phosphines. This is likely due to the absence in scCO2 of the hydrophobic effect, which is replaced by a corresponding, but weaker, CO2-phobic effect. The largest value of Kf was found for complexes of diphenyl(4-adamantylphenyl)phosphin…

chemistry.chemical_classificationSupercritical carbon dioxideAqueous solutionCyclodextrinSurfaces Coatings and FilmsHydrophobic effectsymbols.namesakechemistry.chemical_compoundchemistryMaterials ChemistrysymbolsOrganic chemistryPhysical chemistryPhysical and Theoretical ChemistryDetermination of equilibrium constantsvan der Waals forcePhosphineEquilibrium constant
researchProduct

Nonlocal van der Waals Approach Merged with Double-Hybrid Density Functionals: Toward the Accurate Treatment of Noncovalent Interactions

2015

Noncovalent interactions drive the self-assembly of weakly interacting molecular systems to form supramolecular aggregates, which play a major role in nanotechnology and biochemistry. In this work, we present a thorough assessment of the performance of different double-hybrid density functionals (PBE0-DH-NL, revPBE0-DH-NL, B2PLYP-NL, and TPSS0-DH-NL), as well as their parent hybrid and (meta)GGA functionals, in combination with the most modern version of the nonlocal (NL) van der Waals correction. It is shown that this nonlocal correction can be successfully coupled with double-hybrid density functionals thanks to the short-range attenuation parameter b, which has been optimized against ref…

chemistry.chemical_classificationWork (thermodynamics)Noncovalent interactionsComputer scienceSupramolecular chemistryMolecular systemscomputer.software_genreComputer Science ApplicationsRange (mathematics)symbols.namesakechemistrysymbolsNon-covalent interactionsQuímica FísicaStatistical physicsData miningDouble-hybrid functionalsPhysical and Theoretical Chemistryvan der Waals forcecomputerJournal of Chemical Theory and Computation
researchProduct

Lithium intercalation chemistry, microstructure and superconductivity in zirconium and hafnium nitride halides

2000

Abstract Lithium intercalation in β-MNX (M=Zr, Hf; X=Cl, Br) leads to superconducting compounds with critical temperatures between 12 and 24 K. The lithium uptakes after treatment of the host materials with n-butyllithium/hexane solutions are ca. 0.2 atoms per formula for β-ZrNCl and β-ZrNBr, and between 0.07 and 0.67 for β-HfNCl. Electrochemical lithiation experiments agree with the results obtained with chemical methods, as samples with larger capacity on discharge are also those having larger lithium contents after chemical lithiation. Variations exist in the electrochemical profiles of different batches for the three compounds indicating differences in the intercalation reaction pathway…

chemistry.chemical_classificationZirconiumChemistryIntercalation (chemistry)Inorganic chemistrychemistry.chemical_elementGeneral ChemistryNitrideCondensed Matter PhysicsMicrostructureMagnetic susceptibilitysymbols.namesakesymbolsPhysical chemistryGeneral Materials ScienceLithiumvan der Waals forceInorganic compoundSolid State Sciences
researchProduct

The Nonlocal Correlation Density Functional VV10

2015

Abstract In this chapter, we review the most relevant attempts to merge the Vydrov and van Voorhis nonlocal density-dependent functional kernel (VV10) with modern density functionals to accurately describe van der Waals interactions with a reasonable computational cost. The chapter is organized by providing first an introduction of the relevance of van der Waals interactions and the difficulties of common density functionals to describe these forces. Second, the historical developments that eventually give rise to the most modern formulation of the nonlocal density functional VV10 are briefly addressed. Then, an overview of its technical formulation, adjustable parameters, and implementatio…

chemistry.chemical_classificationsymbols.namesakeChemistryQuantum mechanicssymbolsNon-covalent interactionsDensity functional theoryStatistical physicsvan der Waals forceMerge (version control)
researchProduct

Inelastic Neutron Scattering Experiments on Van der Waals Glasses - A Test of Recent Microscopic Theories of the Glass Transition

1989

Etude realisee sur un verre d'o-terphenyle afin de montrer l'existence d'une relaxation secondaire presentant des caracteristiques inhabituelles et le comportement Kohbrausch de la fonction de correlation de densite decrivant la relaxation structurale

chemistry.chemical_compoundsymbols.namesakeCondensed matter physicsChemistryGeneral Chemical EngineeringTerphenylCritical phenomenasymbolsInelastic scatteringNeutron scatteringvan der Waals forceGlass transitionInelastic neutron scatteringBerichte der Bunsengesellschaft für physikalische Chemie
researchProduct

3,5-Dimethoxyphenyl 4-methylbenzenesulfonate

2017

Molecules of the title compound, C15H16O5S, are composed of a 3,5-dimethoxyphenyl moiety substituted with a toluene-4-sulfonate group. The dihedral angle between two aromatic rings is 57.23 (4)°. In the crystal, molecules are connected by weak C—H...O hydrogen bonds and S...O van der Waals interactions.

crystal structure010405 organic chemistryHydrogen bondStereochemistryChemistryAromaticityCrystal structuretosyl­atesDihedral angle010403 inorganic & nuclear chemistry01 natural sciencesMedicinal chemistryCoupling reaction0104 chemical sciencessymbols.namesakechemistry.chemical_compoundSulfonatecross-coupling reactionssymbolsMoietyvan der Waals forceIUCrData
researchProduct

Crystal structure of 1-(2-fluoro­benzo­yl)-2,7-di­meth­oxy­naphthalene

2014

The asymmetric unit of the compound contains two independent conformers. Each conformer is stacked along the a axis to form columns through van der Waals inter­actions only.

crystal structureCrystallographyAromaticityGeneral ChemistryCrystal structureDihedral angleCondensed Matter PhysicsRing (chemistry)Bioinformatics1-aroyl­naphthalene compoundResearch Communicationschemistry.chemical_compoundsymbols.namesakeCrystallographynon-coplanarly accumulated aromatic rings structurechemistryQD901-999symbolsMoleculeGeneral Materials Sciencevan der Waals forceConformational isomerism1-aroylnaphthalene compoundNaphthalenespatial organizationActa Crystallographica Section E: Structure Reports Online
researchProduct

Bis(4,6-di-tert-butyl-2-{N-[4-(diethylamino)phenyl]carboximidoyl}phenolato)cobalt(II)

2017

In the title complex, [Co(C25H35N2O)2], the cobalt(II) atom has a distorted tetrahedral geometry provided by pairs of O and N atoms. The dihedral angles between the benzene rings of the same ligand are 52.39 (9) and 34.96 (9)°. The molecular structure is stabilized by weak intramolecular C—H...O hydrogen bonds. The crystal packing is stabilized mainly by van der Waals forces. The structure contains a solvent-accessible void of 276 Å3which was treated using the SQUEEZE routine fromPLATON[Spek (2015).Acta Cryst.C71, 9–18]. The methyl C atoms of thetert-butyl groups are rotationally disordered, with site occupancies of 0.802 (3) and 0.548 (9) for the major components and 0.198 (3) and 0.452 (9…

crystal structureHydrogen bondchemistry.chemical_elementCrystal structureDihedral angle010402 general chemistry010403 inorganic & nuclear chemistry01 natural sciencescobalt(II) complex0104 chemical scienceschemistry.chemical_compoundsymbols.namesakeCrystallographychemistryAtomlcsh:QD901-999symbolslcsh:Crystallographyvan der Waals forceBenzenedistorted tetrahedral geometryCobaltIUCrData
researchProduct

Stabilisation of Exotic Tribromide (Br3−) Anions via Supramolecular Interaction with A Tosylated Macrocyclic Pyridinophane. A Serendipitous Case.

2020

Tetraaza-macrocyclic pyridinophane L-Ts, decorated with a p-toluenesulfonyl (tosyl

crystal structureStackingSupramolecular chemistryPharmaceutical ScienceCrystal structureAnalytical Chemistrylcsh:QD241-441symbols.namesakechemistry.chemical_compoundlcsh:Organic chemistryTosylDrug DiscoveryPyridineHirshfeld surface analysisPhysical and Theoretical ChemistryN-heterocyclesanion- interactionsTribromideHydrogen bondOrganic Chemistryanion complexesCrystallographychemistryChemistry (miscellaneous)symbolsMolecular Medicinevan der Waals forceMolecules
researchProduct