Search results for "Shell"

showing 10 items of 748 documents

Vibrational Circular Dichroism of Thiolate-Protected Au25 Clusters: Accurate Prediction of Spectra and Chirality Transfer within the Mixed Ligand She…

2019

We have prepared Au25(PET)18-2x((R)-FBI-NAS)x(PET = 2-phenylethylthiol, (R)-FBINAS = (R)-5,5',6,6',7,7',8,8'-octafluoro-[1,1'-binaphthalene]-2,2'-dithiol) mixed ligand shell clusters via ligand exchange. Two fractions with different composition of the ligand shell were separated using size-exclusion chromatography and studied by infrared (IR) spectroscopy and vibrational circular dichroism (VCD). Both IR and VCD spectra are dominated by FBINAS vibrations although PET is more abundant on the cluster. Calculated VCD spectra on a model cluster Au25(SH)16(FBINAS)1 depend on the charge state of the cluster, and the anion is in excellent agreement with the experimental spectra of the Au25(PET)18-…

ChemistryLigandShell (structure)02 engineering and technologyMixed ligand010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesSpectral line3. Good health0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsCrystallographyGeneral EnergyVibrational circular dichroismddc:540Physical and Theoretical Chemistry0210 nano-technologyChirality (chemistry)
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Bioinspired self-assembly of tyrosinase-modified silicatein and fluorescent core-shell silica spheres.

2014

Inspired by the intermolecular cross-linking of mussel foot proteins and their adhesive properties, tyrosinase has been used to modify recombinant silicatein. DOPA/DOPAquinone-mediated cross-linking and interfacial interactions enhanced both self-assembly of silicatein building blocks and templating of core–shell silica spheres, resulting in fluorescent biomimetic silicatein–silica hybrid mesofibers.

ChemistryMonophenol MonooxygenaseTyrosinaseBiophysicsNanotechnologySilicon DioxideBiochemistryFluorescenceCathepsinsPoriferaCore shellNanoporesBiomimetic MaterialsMaterials TestingMolecular MedicineAnimalsSelf-assemblyAdhesiveEngineering (miscellaneous)NanospheresBiotechnologyFluorescent DyesBioinspirationbiomimetics
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Linear scaling exchange gradients for Hartree–Fock and hybrid density functional theory

2000

Abstract A new method is introduced which allows to form the exchange part of self-consistent field energy gradients in a way which scales linearly with molecular size for molecules with a non-vanishing HOMO–LUMO gap. This is not only important for Hartree–Fock but as well for the popular hybrid density functional theory methods. The method preserves the optimized integral-driven structure of conventional direct methods. Efficiency and scaling behavior of the new method are illustrated for DNA fragments.

ChemistryMulti-configurational self-consistent fieldQuantum mechanicsHartree–Fock methodRestricted open-shell Hartree–FockGeneral Physics and AstronomyUnrestricted Hartree–FockDensity functional theoryStatistical physicsPhysical and Theoretical ChemistryScalingPost-Hartree–FockHybrid functionalChemical Physics Letters
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Application of the open-shell size-consistent self-consistent singles and doubles configuration interaction method to multielectronic transitions in …

2000

The size-consistent self-consistent matrix dressing method has been applied on an open-shell single-configuration reference state. Once the reference state is converged, several low-lying roots can be obtained for the dressed configuration interaction (CI) matrices of appropriate symmetry. The CI matrices were built with a complete-active-space singles and doubles CI method in order to deal properly with multiconfiguration excited states. The vertical ionization and ionization–excitation transitions are obtained from the difference to the closed shell ground-state energy of the neutral molecule. The method has been applied to NH+3 and N+2 using atomic natural orbital basis sets and state-av…

ChemistryPhotoemission spectroscopyIonizationExcited stateMolecular orbitalPhysical and Theoretical ChemistryConfiguration interactionAtomic physicsSize consistency and size extensivityOpen shellSpectral lineTheoretical Chemistry Accounts: Theory, Computation, and Modeling (Theoretica Chimica Acta)
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Geant4-aided Quantum State Selective Decay Spectroscopy of 213 Ra

2017

Utilizing the excellent mass resolving power of SHIPTRAP and the charged-particle-g multicoincidence setup TASISpec, the decay path of the 213Ra ground state can be exclusively studied. Based on virtual experiments with Geant4 it is possible to refine the a-branching ratios of the 213Ra ground state as well as g-ray branching ratios in the 209Rn daughter. The present study provides a proof of concept where clean quantum-state selective particle-g decay spectroscopy is used in conjunction with detailed Geant4 Monte-Carlo simulations to gain insight into nuclear structure properties.

ChemistryProof of conceptQuantum stateNuclear shell modelNuclear structureGamma spectroscopyAtomic physicsSpectroscopyPenning trapGround stateProceedings of The 26th International Nuclear Physics Conference — PoS(INPC2016)
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A Discussion of Some Problems Associated with the Quantum Mechanical Treatment of Open-Shell Molecules

2003

ChemistryQuantum mechanicsMoleculeMolecular orbitalSymmetry breakingOpen shellQuantum chemistryQuantumSpin contamination
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Calculations of the atomic structure of the KNbO3 (110) surface

2000

Abstract The O-terminated KNbO 3 (110) surface is modeled using a semi-empirical shell model and two different short-range interatomic potentials. We find this surface to be unstable with respect to a strong reconstruction and K-termination. This conclusion is confirmed by preliminary calculations using the ab initio linear combination of atomic orbitals (LCAO) formalism.

ChemistrySHELL modelMetals and AlloysAb initioSurfaces and InterfacesMolecular physicsSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsCondensed Matter::Materials ScienceFormalism (philosophy of mathematics)Linear combination of atomic orbitalsAb initio quantum chemistry methodsPhysics::Atomic and Molecular ClustersMaterials ChemistryPhysical chemistrySurface structureSurface reconstructionThin Solid Films
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Nanoreactors for the multi-functionalization of poly-histidine fragments

2019

Water-soluble MBHA derivatives were found to self-assemble in a water environment to generate aggregates showing core–shell architectures. The aggregates appeared to be capable of working as nanoreactors performing a multi-functionalization of poly-histidine fragments, which after an initial interaction with the solvated oligo(ethylene glycol) shell reach the reactive core.

ChemistryShell (structure)Core (manufacturing)General ChemistryNanoreactorCatalysisNanoreactorschemistry.chemical_compoundChemical engineeringMaterials ChemistryWater environmentSurface modificationEthylene glycolHistidine
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A 58-electron superatom-complex model for the magic phosphine-protected gold clusters (Schmid-gold, Nanogold®) of 1.4-nm dimension

2011

We have re-investigated the structural identity of the famous gold-phosphine-halide Au:PR3:X compound having 55–69 gold atoms and core size of 1.4 nm (similar to “Schmid gold” or Nanogold®) from the viewpoint of the Superatom-Complex (SAC) model for ligand protected metal clusters, and in consideration of the ligand-adatom groups observed previously for the structurally known 39-atom cluster [Au39(PR3)14Cl6]−1. Density functional theory is used to define the formation energy of various compositions and structures, enabling a comparison of the stability of different cluster-sizes. In agreement with the SAC model, we find a strong correlation between optimal energy and delocalized electron sh…

ChemistrySuperatomShell (structure)Electron shell02 engineering and technologyGeneral ChemistryElectron010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesIonDelocalized electronCrystallographyComputational chemistryCluster (physics)Density functional theory0210 nano-technologyChemical Science
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General occurrence of polar twisted minima in the ionic singlet excited surfaces of polyenes

1982

Except for a few cases, the lowest closed shell SCF solutions for the twisted geometries of polyenes involves delocalized nonpolarized MO’s, and represents a meaningless mixture of radicalar gound state and ionic excited states. Higher (quasi) solutions allow a realistic approach of the polarized ionic states. Orthogonality to the radicalar ground state may be imposed without important loss of energy. Further extensive CI does not modify significantly the situation. These statements are illustrated through ab initio calculations of butadiene and hexatriene. This approach allows us to show that slight distortions stablize polar minima even in ’’homosymmetric’’ molecules such as all‐trans hex…

ChemistryUNESCO::FÍSICAGeneral Physics and AstronomyIonic bondingElectronic structurePolyenesExcited StatesSelf−Consistent FieldDelocalized electronElectronic StructureAb initio quantum chemistry methods:FÍSICA [UNESCO]Polyenes ; Self−Consistent Field ; Electronic Structure ; Excited StatesExcited statePhysics::Atomic and Molecular ClustersSinglet statePhysical and Theoretical ChemistryAtomic physicsPhysics::Chemical PhysicsGround stateOpen shell
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