Login / Signup

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

Ryan P BradyChaoqun ZhangJustin R DeFranciscoBrandon J BarrettLan ChengArthur E Bragg
Published in: The journal of physical chemistry letters (2021)
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.
Keyphrases
  • energy transfer
  • living cells
  • single molecule
  • monte carlo
  • quantum dots
  • high resolution
  • machine learning
  • deep learning
  • high glucose
  • solid state
  • fluorescent probe
  • drug induced
  • high speed
  • stress induced