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  • Controlling electronic product branching at conical intersections in the UV photolysis of para-substituted thiophenols.

Controlling electronic product branching at conical intersections in the UV photolysis of para-substituted thiophenols.

The journal of physical chemistry. A (2012-11-01)
Thomas A A Oliver, Graeme A King, David P Tew, Richard N Dixon, Michael N R Ashfold
ABSTRACT

H (Rydberg) atom photofragment translation spectroscopy and high-level ab initio electronic structure calculations are used to explore the photodissociation dynamics of three para-substituted thiophenols (p-YPhSH; Y = CH(3), F, and MeO). UV excitation in the wavelength range 305 > λ(phot) > 240 nm results in S-H bond fission and formation of p-YPhS radicals in their ground (X̃(2)B(1)) and first excited (Ã(2)B(2)) electronic states; the X̃/Ã state product branching ratio, Γ, varies with para-Y substituent and excitation wavelength. Excitation at λ(phot) < 265 nm results in direct population of the dissociative 1(1)πσ* potential energy surface (PES). Γ falls across the series p-CH(3)PhSH > p-FPhSH > p-MeOPhSH. Branching is ultimately determined at the conical intersection (CI) formed by the 1(1)πσ* and ground (S(0)) PESs at extended R(S-H) bond length but is sensitively dependent on the orientation of the S-H bond (relative to the ring plane) in the S(0) molecules prior to photoexcitation. Excitation at λ(phot) > 265 nm populates quasi-bound levels of the respective 1(1)ππ* states, which predissociate rapidly by tunneling under the lower diabats of the 1(1)ππ*/1(1)πσ* CI at short R(S-H). Less extreme X̃/Ã product branching ratios are measured, implicating intramolecular vibrational redistribution within the photoexcited 1(1)ππ* molecules prior to their sampling the region of the 1(1)πσ*/S(0) CI.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Sodium thiophenolate, technical grade, 90%
Supelco
Thiophenol, analytical standard
Sigma-Aldrich
Thiophenol, 97%
Sigma-Aldrich
Thiophenol, ≥99%