Multiphoton Control of 6π Photocyclization via State-Dependent Reactant-Product Correlations.

Ryan P Brady, Chaoqun Zhang, Justin R DeFrancisco, Brandon J Barrett, Lan Cheng, Arthur E Bragg

The journal of physical chemistry letters 2021 Oct 07

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Multiphoton excitation promises opportunities for opening new photochemical reaction pathways and controlling photoproduct distributions. We demonstrate photonic control of the 6π photocyclization of ortho-terphenyl to make 4a,4b-dihydrotriphenylene (DHT). Using pump-repump-probe spectroscopy we show that 1 + 1' excitation to a high-lying reactant electronic state generates a metastable species characterized by a red absorption feature that accompanies a repump-induced depletion in the one-photon trans-dihydro product (trans-DHT); signatures of the new photoproduct are clearer for a structural analogue of the reactant that is sterically inhibited against one-photon cyclization. Quantum-chemical computations support assignment of this species to cis-DHT, which is accessible photochemically along a disrotatory coordinate from high-lying electronic states reached by 1 + 1' excitation. We use time-resolved spectroscopy to track photochemical dynamics producing cis-DHT. In total, we demonstrate that selective multiphoton excitation opens a new photoreaction channel in these photocyclizing reactants by taking advantage of state-dependent correlations between reactant and product electronic states.

Citation

Ryan P Brady, Chaoqun Zhang, Justin R DeFrancisco, Brandon J Barrett, Lan Cheng, Arthur E Bragg. Multiphoton Control of 6π Photocyclization via State-Dependent Reactant-Product Correlations. The journal of physical chemistry letters. 2021 Oct 07;12(39):9493-9500