6533b7d8fe1ef96bd12697c3

RESEARCH PRODUCT

The first excited singlet state of s‐tetrazine: A theoretical analysis of some outstanding questions

John F. StantonJürgen Gauss

subject

ChemistryAnharmonicityGeneral Physics and AstronomyElectronic structuresymbols.namesakeTetrazinechemistry.chemical_compoundCoupled clusterFranck–Condon principleExcited statesymbolsPhysical and Theoretical ChemistryAtomic physicsAdiabatic processExcitation

description

The equation‐of‐motion coupled cluster method for excited electronic states (EOMEE‐CC) is applied to study the structure and selected properties of the first excited singlet state of s‐tetrazine. Adiabatic S1←S0 excitation energies obtained with large basis sets containing up to 270 functions are uniformly somewhat above the experimental 0–0 value of 2.238 eV, but nevertheless are the most accurate calculations reported to date for this quantity. The equilibrium geometry of S1 predicted in this study is in excellent agreement with another high‐level calculation, and moreover is quantitatively consistent with both the intensity of vibrational progressions observed in absorption and measured rotational constants for S1. The EOMEE‐CC harmonic force field of S1 is the first to satisfactorily describe the low frequency in‐plane b3g bending mode, notably its marked reduction in frequency upon excitation and characteristic positive anharmonicity. Both of these effects are due to a strong second‐order Jahn–Teller...

yearjournalcountryeditionlanguage
1996-06-22The Journal of Chemical Physics
https://doi.org/10.1063/1.471750