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Understanding the Impact of Symmetrical Substitution on the Photodynamics of Sinapate Esters Using Gas-Phase Ultrafast Spectroscopy

Jack Dalton, Josene M. Toldo, Florent Allais, Mario Barbatti, Vasilios G. Stavros

2023The Journal of Physical Chemistry Letters12 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Two model biomimetic systems, ethyl sinapate (ES) and its symmetrical analogue, diethyl 2-(4-hydroxy-3,5-dimethoxybenzylidene)malonate (or diethyl sinapate, DES), are stripped to their core fundamentals through gas-phase spectroscopy to understand the underlying photophysics of photothermal materials. Following photoexcitation to the optically bright S 1 (ππ*) state, DES is found to repopulate the electronic ground state over 3 orders of magnitude quicker than its nonsymmetrical counterpart, ES. Our XMS-CASPT2 calculations shed light on the experimental results, revealing crucial differences in the potential energy surfaces and conical intersection topography between ES and DES. From this work, a peaked conical intersection, seen for DES, shows vital importance for the nonradiative ground-state recovery of photothermal materials. This fundamental comparative study highlights the potential impact that symmetrical substitution can have on the photodynamics of sinapate esters, providing a blueprint for future advancement in photothermal technology.

Topics & Concepts

Conical intersectionSpectroscopyPhotoexcitationPhotothermal therapyThiiraneChemistryPhotochemistryConical surfaceGround stateChemical physicsNanotechnologyMaterials scienceOrganic chemistryAtomic physicsPhysicsExcited stateMoleculeRing (chemistry)Composite materialQuantum mechanicsGold and Silver Nanoparticles Synthesis and ApplicationsSpectroscopy and Quantum Chemical StudiesNanoplatforms for cancer theranostics
Understanding the Impact of Symmetrical Substitution on the Photodynamics of Sinapate Esters Using Gas-Phase Ultrafast Spectroscopy | Litcius