Title :
The role of the internal rotation on the 5-benzyluracil excited states
Author :
Bende, A. ; Tosa, V.
Author_Institution :
Mol. & Biomol. Phys. Dept., Nat. Inst. for R&D of Isotopic & Mol. Technol., Cluj-Napoca, Romania
Abstract :
The structure and barrier to internal rotation of 5-benzyluracil along the CH2 bridge between the benzol and uracil molecular fragments in the ground state has been examined. The electronically excited S1- and S2-state has been calculated by time-dependent density functional level of theory using the B3LYP exchange-correlation functional with aug-cc-pVTZ basis set. The result shows significant energy level and oscillator strength shifts due to the internal rotation compared with the similar data in the equilibrium position. It was also found that there are several relative internally rotated geometry configurations where we obtain higher absortion probability of the excitation wavelength.
Keywords :
density functional theory; excited states; ground states; molecular biophysics; molecular configurations; molecular electronic states; organic compounds; oscillator strengths; rotational isomerism; 5-benzyluracil; B3LYP exchange-correlation function; absortion probability; aug-cc-pVTZ basis set; benzol molecular fragment; energy level; excitation wavelength; excited state; geometry configurations; ground state; internal rotation; methylene bridge; oscillator strength shifts; time-dependent density functional theory; uracil molecular fragment; 5-benzyluracil; excited state; internal rotation;
Conference_Titel :
Tier 2 Federation Grid, Cloud & High Performance Computing Science (RO-LCG), 2012 5th Romania
Conference_Location :
Cluj-Napoca
Print_ISBN :
978-1-4673-2242-3
