Observation of multi-channel non-adiabatic dynamics in aniline derivatives using time-resolved photoelectron imaging

We present results from a recent time-resolved photoelectron imaging (TRPEI) study investigating the non-adiabatic relaxation dynamics of N , N -dimethylaniline ( N , N -DMA) and 3,5-dimethylaniline (3,5-DMA) following excitation at 240 nm. Analysis of the experimental data is supported by ab initio...

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Veröffentlicht in:Faraday discussions 2016-01, Vol.194, p.185-28
Hauptverfasser: Zawadzki, Magdalena M, Candelaresi, Marco, Saalbach, Lisa, Crane, Stuart W, Paterson, Martin J, Townsend, Dave
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Sprache:eng
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Zusammenfassung:We present results from a recent time-resolved photoelectron imaging (TRPEI) study investigating the non-adiabatic relaxation dynamics of N , N -dimethylaniline ( N , N -DMA) and 3,5-dimethylaniline (3,5-DMA) following excitation at 240 nm. Analysis of the experimental data is supported by ab initio coupled-cluster calculations evaluating excited state energies and the evolution of several excited state physical properties as a function of N-H/N-CH 3 bond extension - a critical reaction coordinate. The use of site-selective methylation brings considerable new insight to the existing body of literature concerning photochemical dynamics in the related system aniline at similar excitation wavelengths. The present work also builds on our own previous investigations in the same species at 250 nm. The TRPEI method provides highly differential energy- and angle-resolved data and, in particular, the temporal evolution of the photoelectron angular distributions afforded by the imaging approach offers much of the new dynamical information. In particular, we see no clear evidence of the second excited 2ππ* state non-adiabatically coupling to the lower-lying S 1 (ππ*) state or the mixed Rydberg/valence S 2 (3s/πσ*) state. This, in turn, potentially raises some unresolved questions about the overall nature of the dynamics operating in these systems, especially in regard to the 2ππ* state's ultimate fate. More generally, the findings for the aromatic systems N , N -DMA and 3,5-DMA, taken along with our recent TRPEI results for several aliphatic amine species, highlight interesting questions about the nature of electronic character evolution in mixed Rydberg-valence states as a function of certain key bond extensions and the extent of system conjugation. We begin exploring these ideas computationally for a systematically varied series of tertiary amines.
ISSN:1359-6640
1364-5498
DOI:10.1039/c6fd00092d