Search results for "non-covalent interactions"

showing 10 items of 73 documents

Understanding Noncovalent Interactions of Small Molecules with Carbon Nanotubes

2017

We combine experimental methods, density functional theory (DFT) calculations, and molecular dynamics (MD) simulations in the quantitative analysis of noncovalent interactions between (6,5)-enriched single-walled carbon nanotubes (SWNTs), as hosts, and a set of pyrene derivatives with different electronic properties and surface areas, as guests. The experiments and calculations were carried out in two solvents with markedly different polarities, namely 1,1',2,2'-tetrachloroethane (TCE) and N,N-dimethylformamide (DMF). Our results show that dispersion forces govern the supramolecular association of small molecules with (6,5)-SWNTs, with negligible contributions from ground-state charge-trans…

chemistry.chemical_classificationChemistryOrganic ChemistrySupramolecular chemistrySolvation02 engineering and technologyGeneral ChemistryCarbon nanotube010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesTetrachloroethaneLondon dispersion forceCatalysis0104 chemical scienceslaw.inventionMolecular dynamicsComputational chemistrylawNon-covalent interactionsDensity functional theory0210 nano-technology
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Weak non-covalent interactions control the relative molecular orientation in the crystals of N-pentafluorobenzyl aniline derivatives

2010

The crystal structures of N-pentafluorobenzyl aniline derivatives are controlled by versatile aromatic–aromatic interactions between the electron deficient and electron rich aromatics; the parent compound (1) possesses an L shape while protonation (2–5) induces a conformational change resulting in a planar arrangement of molecules which pack in layer type structures with different molecular orientations.

chemistry.chemical_classificationConformational changeChemistryChemieProtonationGeneral ChemistryCrystal structureElectronCondensed Matter PhysicsCrystallographychemistry.chemical_compoundAnilineNon-covalent interactionsMoleculeGeneral Materials ScienceLayer (electronics)CrystEngComm
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Inter- and intramolecular non-covalent interactions in 1-methylimidazole-2-carbaldehyde complexes of copper, silver, and gold

2014

Abstract Three new imidazole compounds, [CuBr2(mimc)2] (1), [Ag(mimc)2][CF3SO3] (2), and [AuCl3(mimc)] (3) (mimc = 1-methylimidazole-2-carbaldehyde), have been synthesized, structurally characterized, and further analyzed using the QTAIM analysis. The compounds exhibit self-assembled 3D networks arising from intermolecular non-covalent interactions such as metallophilic interactions, metal-π contacts, halogens–halogen interactions, and hydrogen bonds. These weak interactions have a strong impact on the coordination sphere of the metal atoms and on the packing of compounds 1, 2, and 3.

chemistry.chemical_classificationCoordination sphereHydrogen bondStereochemistryIntermolecular forceGeneral ChemistryCondensed Matter Physicschemistry.chemical_compoundchemistryIntramolecular forcePolymer chemistryImidazoleNon-covalent interactionsGeneral Materials ScienceSelf-assemblyta1161-MethylimidazoleSolid State Sciences
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Front Cover: Chalcogen‐Bonding Interactions in Telluroether Heterocycles [Te(CH 2 ) m ] n ( n= 1–4; m= 3–7) (Chem. Eur. J. 61/2020)

2020

chemistry.chemical_classificationCrystallographyChalcogenFront coverchemistryOrganic Chemistrychemistry.chemical_elementNon-covalent interactionsGeneral ChemistryTelluriumCatalysisChemistry – A European Journal
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Direct Visualization of Pyrrole Reactivity upon Confinement within a Cyclodextrin Metal–Organic Framework

2019

Metal–organic frameworks can be used as porous templates to exert control over polymerization reactions. Shown here are the possibilities offered by these crystalline, porous nanoreactors to capture highly-reactive intermediates for a better understanding of the mechanism of polymerization reactions. By using a cyclodextrin framework the polymerization of pyrrole is restricted, capturing the formation of terpyrrole cationic intermediates. Single-crystal X-ray diffraction is used to provide definite information on the supramolecular interactions that induce the formation and stabilization of a conductive array of cationic complexes.

chemistry.chemical_classificationCyclodextrin010405 organic chemistryChemistrytechnology industry and agricultureSupramolecular chemistryCationic polymerizationGeneral Medicinemacromolecular substancesGeneral ChemistryNanoreactor010402 general chemistry01 natural sciencesCombinatorial chemistryCatalysis0104 chemical scienceschemistry.chemical_compoundPolymerizationNon-covalent interactionsMetal-organic frameworkPyrroleAngewandte Chemie International Edition
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Spectrophotometric determination of binding constants between some aminocyclodextrins and nitrobenzene derivatives at various pH values

2002

Abstract The inclusion capacity of three modified cyclodextrins—namely mono-(6- N , N -dimethylamino-6-deoxy)- ( 3 ), mono-6-(2-aminoethyl)-amino-6-deoxy- ( 4 ) and mono-6-(2- N , N -dimethylaminoethyl)-amino-6-deoxy- ( 5 ) β-cyclodextrin, with six para -substituted nitrobenzenes ( A – F ) 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. The desolvation of the cyclodextrin is the most important factor in determining the binding ability of the various hosts. However, for a given host, electrostatic and van der Waals interactions and the formation of a hydrogen bond be…

chemistry.chemical_classificationCyclodextrinHydrogen bondOrganic ChemistrySettore CHIM/06 - Chimica OrganicaBiochemistryBinding constantMedicinal chemistryMolecular mechanicscyclodextrins inclusion molecular mechanicsNitrobenzenesymbols.namesakechemistry.chemical_compoundchemistryComputational chemistryDrug DiscoverysymbolsNon-covalent interactionsDesolvationvan der Waals force
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Supramolecular organic-inorganic hybrid assemblies with tunable particle size: interplay of three noncovalent interactions.

2013

chemistry.chemical_classificationDendrimersMaterials scienceSupramolecular chemistryNanoparticleMetal NanoparticlesNanotechnologyGeneral ChemistrySulfidesCatalysisPolyelectrolyteColloidchemistryMicroscopy Electron TransmissionOrganic inorganicCadmium CompoundsNon-covalent interactionsSelf-assemblyParticle sizeGoldParticle SizeColoring AgentsAngewandte Chemie (International ed. in English)
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A Study of the Effects of the Lewis Acid Catalysts on Oxa‐Diels‐Alder Reactions through Molecular Electron Density Theory

2020

chemistry.chemical_classificationElectron densityChemistryPolymer chemistryDiels alderNon-covalent interactionsGeneral ChemistryLewis acids and basesElectron localization functionCatalysisLewis acid catalysisChemistrySelect
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Noncovalent Saccharide Recognition by Means of a Tetrakis(bile acid)-Porphyrin Conjugate: Selectivity, Cooperation, and Stability

2010

Molecular recognition of Glu, Glc 2 -Glc 6 and Mal 3 by a tetrakis(bile acid)―porphyrin conjugate has been studied by using ESI-FTICR mass spectrometry. The bile acid conjugate was observed to form 1:1 noncovalent complexes with saccharides. The conjugate was found to have size-selectivity towards saccharides with three or more glucose residues. The Glc 3 and Glc 4 also formed kinetically the most stable complexes. The electron capture dissociation (ECD) experiments revealed that in complexation of an oligosaccharide three glucose residues interact with the bile acid conjugate, whereas additional glucose residues are susceptible to fragmentation. The ECD results also showed the significance…

chemistry.chemical_classificationElectron-capture dissociationBile acidmedicine.drug_classStereochemistryOrganic ChemistryOligosaccharidePorphyrinchemistry.chemical_compoundMolecular recognitionchemistryAldosemedicineNon-covalent interactionsPhysical and Theoretical ChemistryConjugateEuropean Journal of Organic Chemistry
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DLPNO-CCSD(T) scaled methods for the accurate treatment of large supramolecular complexes

2017

In this work, we present scaled variants of the DLPNO-CCSD(T) method, dubbed as (LS)DLPNO-CCSD(T) and (NS)DLPNO-CCSD(T), to obtain accurate interaction energies in supramolecular complexes governed by noncovalent interactions. The novel scaled schemes are based on the linear combination of the DLPNO-CCSD(T) correlation energies calculated with the standard (LoosePNO and NormalPNO) and modified (Loose2PNO and Normal2PNO) DLPNO-CCSD(T) accuracy levels. The scaled DLPNO-CCSD(T) variants provide nearly TightPNO accuracy, which is essential for the quantification of weak noncovalent interactions, with a noticeable saving in computational cost. Importantly, the accuracy of the proposed schemes is…

chemistry.chemical_classificationFullerene010304 chemical physicsDispersion forcesNoncovalent interactionsSupramolecular chemistryGeneral Chemistry010402 general chemistry01 natural sciencesLondon dispersion force0104 chemical sciencesComputational MathematicsCrystallographychemistryComputational chemistryAb initio quantum chemistry methods0103 physical sciencesNon-covalent interactionsDLPNO-CCSD(T) scaled methodsDonor–acceptor supramolecular complexesAb initio calculationsQuímica FísicaLinear combination
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