Molecular Photofragmentation Dynamics in the Gas and Condensed Phases

Ashfold, Michael N. R.; Murdock, Daniel; Oliver, Thomas A. A.

doi:10.1146/annurev-physchem-052516-050756

Cited by 17 publications

(15 citation statements)

References 145 publications

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“…The influence of CIs on different reaction channels is demonstrated, for example, in molecular photofragmentation, as observed by photofragment translational spectroscopy. 28 , 29 The yields of reaction products and their kinetic energies were found to depend, for example, on the nature of the photoexcited state, 3 , 30 , 31 the vibrational excitation, 32 − 35 or dynamic resonances. 36 , 37 …”

Section: Resultsmentioning

confidence: 99%

The Role of Rydberg–Valence Coupling in the Ultrafast Relaxation Dynamics of Acetone

et al. 2017

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The electronic structure of excited states of acetone is represented by a Rydberg manifold that is coupled to valence states which provide very fast and efficient relaxation pathways. We observe and characterize the transfer of population from photoexcited Rydberg states (6p, 6d, 7s) to a whole series of lower Rydberg states (3p to 4d) and a simultaneous decay of population from these states. We obtain these results with time-resolved photoelectron–photoion coincidence (PEPICO) detection in combination with the application of Bayesian statistics for data analysis. Despite the expectedly complex relaxation behavior, we find that a simple sequential decay model is able to describe the observed PEPICO transients satisfactorily. We obtain a slower decay (∼320 fs) from photoexcited states compared to a faster decay (∼100 fs) of states that are populated by internal conversion, demonstrating that different relaxation dynamics are active. Within the series of Rydberg states populated by internal conversion, the decay dynamics seem to be similar, and a trend of slower decay from lower states indicates an increasingly higher energy barrier along the decay pathway for lower states. The presented results agree all in all with previous relaxation studies within the Rydberg manifold. The state-resolved observation of transient population ranging from 3p to 4d can serve as reference for time-dependent simulations.

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Section: Resultsmentioning

confidence: 99%

The Role of Rydberg–Valence Coupling in the Ultrafast Relaxation Dynamics of Acetone

et al. 2017

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“…Coupling broadband ultraviolet light with vibrational probes is one logical extension of 2DEV for the study of non-adiabatic dynamics in ultraviolet chromophores such as nucleobases, cytochromes, photoswitches and smaller polyenes that are more amenable to ab initio studies. In the majority of these systems, CIs near to the vertical Franck-Condon region are far more commonplace than in visible chromophores and almost always inevitably lead to strongly coupled electronic-nuclear motion that 2DEV spectroscopy is well placed to interrogate [128,139,204,205]. The necessary technological components already exist: ultrashort broadband UV sources are readily available [184,206], 2DES has been performed with ultraviolet laser pulses and thus the significant technological challenge of creating phase-locked UV pulse pairs has been surmounted [95,[207][208][209][210][211].…”

Section: Two-dimensional Electronic-vibrational Spectroscopy With Ultraviolet Excitationmentioning

confidence: 99%

Recent advances in multidimensional ultrafast spectroscopy

Oliver¹

2018

R. Soc. open sci.

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Multidimensional ultrafast spectroscopies are one of the premier tools to investigate condensed phase dynamics of biological, chemical and functional nanomaterial systems. As they reach maturity, the variety of frequency domains that can be explored has vastly increased, with experimental techniques capable of correlating excitation and emission frequencies from the terahertz through to the ultraviolet. Some of the most recent innovations also include extreme cross-peak spectroscopies that directly correlate the dynamics of electronic and vibrational states. This review article summarizes the key technological advances that have permitted these recent advances, and the insights gained from new multidimensional spectroscopic probes.

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“…The recent literature contains numerous articles, theoretical and experimental, that highlight the central role of excited states formed by electron promotion to an antibonding σ* orbital in facilitating bond fission. [6][7][8][9] Such states, formed by exciting an electron from an occupied lone pair (n) or bonding ( or σ) orbital, are now recognised as pivotal in discussions of the UV photofragmentation dynamics in many broad families of molecules. Exemplars include: water, alcohols, phenols, ethers and their thioanalogues; ammonia, amines, azoles, etc.…”

Section: Introductionmentioning

confidence: 99%