Dynamics of Electronic States and Spin−Flip for Photodissociation of Dihalogens in Matrices:  Experiment and Semiclassical Surface-Hopping and Quantum Model Simulations for F<sub>2</sub> and ClF in Solid Ar

Bargheer, Matias; Cohen, A.; Gerber, R. B.; Gühr, Markus; Mv, Korolkov; Manz, J.; Niv, Masha Y.; Schröder, M.; Schwentner, N.

doi:10.1021/jp071771t

Cited by 29 publications

(21 citation statements)

References 68 publications

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“…See for example ref. [7]. However, this does not concern the present consideration of just the initial forward reaction, which is described well by the one-dimensional model.…”

Section: Model and Techniquesmentioning

confidence: 95%

Nuclear Flux Densities during a Model Pericyclic Reaction with Energies Well Above and Below the Potential Barrier

et al. 2013

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“…See for example ref. [7]. However, this does not concern the present consideration of just the initial forward reaction, which is described well by the one-dimensional model.…”

Section: Model and Techniquesmentioning

confidence: 95%

Nuclear Flux Densities during a Model Pericyclic Reaction with Energies Well Above and Below the Potential Barrier

et al. 2013

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“…Apart from the rotational and vibrational dynamics of the guest molecules [1], many studies on molecules in rare-gas hosts are concerned with light-induced electronic excitation and the subsequent dynamics of the photodissociation fragments [2,3]. Interesting topics include the cage effect [2,[5][6][7][8] and matrix-induced non-adiabatic electronic transitions [9,10], possibly leading to spin-flips [11][12][13][14] and/or to recombination of the fragments [15].…”

Section: Introductionmentioning

confidence: 99%

RETRACTED ARTICLE: Quantum effects on translation and rotation of molecular chlorine in solid para-hydrogen

Accardi

Schmidt

2013

Molecular Physics

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Structure and quantum effects of a Cl 2 molecule embedded in fcc and hcp para-hydrogen (pH 2 ) crystals are investigated in the zero-temperature limit. The interaction is modelled in terms of Cl 2 -pH 2 and pH 2 -pH 2 pair potentials from ab initio CCSD(T) and MP2 calculations. Translational and rotational motions of the molecules are described within three-dimensional anharmonic Einstein and Devonshire models, respectively, where the crystals are either treated as rigid or allowed to relax. The pH 2 molecules, as well as the heavier Cl 2 molecule, show large translational zero-point energies (ZPEs) and undergo large-amplitude translational motions. This gives rise to substantial reductions in the cohesive energies and expansions of the lattices, in agreement with experimental results for pure hydrogen crystals. The rotational dynamics of the Cl 2 impurity is restricted to small-amplitude librations, again with high librational ZPEs, which are described in terms of two-dimensional non-degenerate anharmonic oscillators. The lattice relaxation causes qualitative changes of the rotational energy surfaces, which finally favour librations around the crystallographic directions pointing towards the nearest neighbours, both for fcc and hcp lattices. Implications on the reactant orientation in the experimentally observed laser-induced chemical reaction, Cl + H 2 → HCl + H, are discussed.

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“…This method has been applied to different diatomics in rare gas matrices using Tully's surface hopping method to describe the non-adiabatic dynamics. The predicted theoretical photoinduced dynamics is in most cases in very good agreement with experiment, despite the semiempirical approach of the potential energy description [48][49][50][51][52][53][54][55].…”

Section: Introductionmentioning

confidence: 83%

Femtosecond timescale deactivation of electronically excited peroxides at ice surfaces

Shemesh

Gerber

2012

Molecular Physics

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Peroxides are ubiquitous in the atmosphere and their photochemistry at ice surfaces is important. Here the primary steps following photoexcitation of methyl hydroperoxide (MHP) on ice particles are investigated using the MNDO method that describes semiempirically multiple electronic states and treats non-adiabatic dynamical transitions between them by surface hopping. Results are compared with the isolated MHP. Important findings are as follows.(1) Ice catalyzes the deactivation of MHP from the excited state to the ground state. (2) The deactivation process takes place on a femtosecond timescale and is followed by dissociation into fragments.(3) Recombination of fragments occurs to a small extent on ice, but not for the isolated peroxide.

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Dynamics of Electronic States and Spin−Flip for Photodissociation of Dihalogens in Matrices: Experiment and Semiclassical Surface-Hopping and Quantum Model Simulations for F₂ and ClF in Solid Ar

Cited by 29 publications

References 68 publications

Nuclear Flux Densities during a Model Pericyclic Reaction with Energies Well Above and Below the Potential Barrier

Nuclear Flux Densities during a Model Pericyclic Reaction with Energies Well Above and Below the Potential Barrier

RETRACTED ARTICLE: Quantum effects on translation and rotation of molecular chlorine in solid para-hydrogen

Femtosecond timescale deactivation of electronically excited peroxides at ice surfaces

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Dynamics of Electronic States and Spin−Flip for Photodissociation of Dihalogens in Matrices: Experiment and Semiclassical Surface-Hopping and Quantum Model Simulations for F2 and ClF in Solid Ar

Cited by 29 publications

References 68 publications

Nuclear Flux Densities during a Model Pericyclic Reaction with Energies Well Above and Below the Potential Barrier

Nuclear Flux Densities during a Model Pericyclic Reaction with Energies Well Above and Below the Potential Barrier

RETRACTED ARTICLE: Quantum effects on translation and rotation of molecular chlorine in solid para-hydrogen

Femtosecond timescale deactivation of electronically excited peroxides at ice surfaces

Contact Info

Product

Resources

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Dynamics of Electronic States and Spin−Flip for Photodissociation of Dihalogens in Matrices: Experiment and Semiclassical Surface-Hopping and Quantum Model Simulations for F₂ and ClF in Solid Ar