6533b838fe1ef96bd12a3cae
RESEARCH PRODUCT
On the N1-H and N3-H Bond Dissociation in Uracil by Low Energy Electrons: A CASSCF/CASPT2 Study.
Luis Serrano-andrésIsrael González-ramírezDaniel Roca-sanjuánManuela MerchánMercedes RubioJavier Segarra‐martísubject
010304 chemical physicsChemistryHydrogen bondUracilElectronBond breaking010402 general chemistry01 natural sciencesDissociation (chemistry)0104 chemical sciencesComputer Science ApplicationsCrystallographychemistry.chemical_compoundLow energyComputational chemistry0103 physical sciencesPhysical and Theoretical ChemistryGround stateNeutral moleculedescription
The dissociative electron-attachment (DEA) phenomena at the N1-H and N3-H bonds observed experimentally at low energies (<3 eV) in uracil are studied with the CASSCF/CASPT2 methodology. Two valence-bound π(-) and two dissociative σ(-) states of the uracil anionic species, together with the ground state of the neutral molecule, are proven to contribute to the shapes appearing in the experimental DEA cross sections. Conical intersections (CI) between the π(-) and σ(-) are established as the structures which activate the DEA processes. The N1-H and N3-H DEA mechanisms in uracil are described, and experimental observations are interpreted on the basis of two factors: (1) the relative energy of the (U-H)(-) + H fragments obtained after DEA with respect to the ground-state equilibrium structure (S0) of the neutral molecule (threshold for DEA) and (2) the relative energy of the CIs also with respect to S0 (band maxima). The π1(-) state is found to be mainly responsible for the N1-H bond breaking, whereas the π2(-) state is proved to be involved in the cleavage of the N3-H bond.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-11-24 | Journal of chemical theory and computation |