Min-Hsien Kao scite author profile

The excited-state dynamics of photoexcited diethylamino hydroxybenzoyl hexyl benzoate (DHHB), a UVA absorber widely used in sunscreen formulations, are studied with transient electronic and vibrational absorption spectroscopy methods in four different solvents. In the polar solvents methanol, dimethyl sulfoxide (DMSO) and acetonitrile, strong stimulated emission (SE) is observed at early time delays after photoexcitation at a near-UV wavelength of ex = 360 nm, and decays with time constants of 420 fs in methanol and 770 fs in DMSO. The majority (~95%) of photoexcited DHHB returns to the ground state with time constants of 15 ps in methanol and 25 ps in DMSO. In the non-polar solvent cyclohexane, ~98%of DHHB photoexcited at ex = 345 nm relaxes to the ground state with a ~10 ps time constant, and the SE is weak. DHHB preferentially adopts an enol form in its ground S0 state, but excited state absorption (ESA) bands seen in TEAS are assigned to both the S1-keto and S1-enol forms, indicating a role for ultrafast intramolecular excited state hydrogen transfer (ESHT). This ESHT is inhibited by polar solvents. The two S1 tautomers decay with similar time scales to the observed recovery of ground state population. For molecules that avoid ESHT, torsion around a central C-C bond minimizes the S1-enol energy, quenches the SE, and is proposed to lead to a conical intersection with the S0 state that mediates the ground state recovery.A competing trans-enol isomeric photoproduct is observed as a minor competitor to parent recovery in polar solvents. Evidence is presented for triplet (T1) enol production in polar solvents, and for T1 quenching by octocrylene, a common UVB absorber sunscreen additive. The T1 keto form is observed in cyclohexane solution.

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Effects of ring-strain on the ultrafast photochemistry of cyclic ketones

Kao

Venkatraman

Ashfold

et al. 2020

Chem. Sci.

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Charge-Separated Reactive Intermediates from the UV Photodissociation of Chlorobenzene in Solution

Kao

Orr-Ewing

2022

J. Phys. Chem. A

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Although ultraviolet (UV)-induced photochemical cleavage of carbon–halogen bonds in gaseous halocarbons is mostly homolytic, the photolysis of chlorobenzene in solution has been proposed to produce a phenyl cation, c-C 6 H 5 + , which is a highly reactive intermediate of potential use in chemical synthesis and N 2 activation. Any evidence for such a route to phenyl cations is indirect, with uncertainty remaining about the possible mechanism. Here, ultrafast transient absorption spectroscopy of UV-excited (λ = 240 and 270 nm) chlorobenzene solutions in fluorinated (perfluorohexane) and protic (ethanol and 2,2,2-trifluoroethanol) solvents reveals a broad electronic absorption band centered at 540 nm that is assigned to an isomer of chlorobenzene with both charge-separated and triplet-spin carbene character. This spectroscopic feature is weaker, or absent, when experiments are conducted in cyclohexane. The intermediate isomer of chlorobenzene has a solvent-dependent lifetime of 30–110 ps, determined by reaction with the solvent or quenching to a lower-lying singlet state. Evidence is presented for dissociation to ortho -benzyne, but the intermediate could also be a precursor to phenyl cation formation.

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DHHB Sunscreen Photochemistry

Venkatraman¹,

Kao²,

Sneha³

et al. 2020

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Min-Hsien Kao

Influence of the Solvent Environment on the Ultrafast Relaxation Pathways of a Sunscreen Molecule Diethylamino Hydroxybenzoyl Hexyl Benzoate

Effects of ring-strain on the ultrafast photochemistry of cyclic ketones

Charge-Separated Reactive Intermediates from the UV Photodissociation of Chlorobenzene in Solution

DHHB Sunscreen Photochemistry

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