Publication: Simplified Sum-Over-States Approach for Predicting Resonance Raman Spectra. Application to Nucleic Acid Bases
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Date
2011
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American Chemical Society
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Rappoport, Dmitrij, Sangwoo Shim, and Alan Aspuru-Guzik. 2011. Simplified sum-over-states-approach for predicting resonance Raman spectra. Application to Nucleic Acid Bases. Journal of Physical Chemistry Letters 2(11): 1254-1260.
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Abstract
Resonance Raman spectra provide a valuable probe into molecular excited-state structures and properties. Moreover, resonance enhancement is of importance for the chemical contribution to surface-enhanced Raman scattering. In this work, we introduce a simplified sum-over-states scheme for computing Raman spectra and Raman excitation profiles. The proposed sum-over-states approach uses derivatives of electronic excitation energies and transition dipole moments, which can be efficiently computed from time-dependent density functional theory. We analyze and interpret the resonance Raman spectra and Raman excitation profiles of nucleic acid bases using the present approach. Contributions of individual excited states under strictly resonant and non-resonant conditions are investigated, and smooth interpolation between both limiting cases is obtained.
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Keywords
resonance, Raman spectra, density functional theory, vibronic coupling, electronic excitations, nucleic acid bases
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