Search results for "Ligand effects"

showing 2 items of 2 documents

Spin State and Ligand Dissociation in [CpCoL2] Complexes (L = PH3, H2C=CH2): A Computational Study

1999

International audience; The relative energies of [CpCoL] compounds (L = PH3, H2C=CH2) were calculated at the DFT/B3LYP level of theory. The triplet spin state was found to be favored over the singlet by between 33.0 and 21.0 kcal mol−1 for both fixed and optimized geometries. The basis set size was found to be important for the energy calculations, particularly when the energetics of ligand dissociation was examined. The role of the triplet spin state in facilitating the ligand dissociation process is discussed.

Electronic structureSpin statesChemistryCobaltElectronic structureDissociation (chemistry)Ligand effects[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistryInorganic ChemistryDensity functional calculationsComputational chemistrySpin statePhysics::Atomic and Molecular Clusters[CHIM.COOR]Chemical Sciences/Coordination chemistrySinglet statePhysics::Chemical PhysicsTriplet stateBasis setEuropean Journal of Inorganic Chemistry
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A Computational Study of Two-State Conformational Changes in 16-Electron [CpW(NO)(L)] Complexes (L=PH3, CO, CH2, HCCH, H2CCH2)

1999

International audience; High-spin and low-spin [CpW(NO) (L)] complexes are calculated to be remarkably close in energy. Several critical conformational changes in the singlet compounds are predicted to proceed more readily by spin crossover to the triplet hypersurface. The relationships between spin state, π bonding, ligand orientation, and geometry at W are explored.

Spin statesChemistryLigandOrganic ChemistryGeneral ChemistryState (functional analysis)ElectronSpin crossoverCatalysisTungstenLigand effects[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistryCrystallographyDensity functional calculationsHypersurfaceSpin crossoverComputational chemistryPi interactionsPi interactionCondensed Matter::Strongly Correlated Electrons[CHIM.COOR]Chemical Sciences/Coordination chemistrySinglet state
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