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Dec 21, 2016 - ACS eBooks; C&EN Global Enterprise ... The Journal of Physical Chemistry B .... Department of Chemistry, The Pennsylvania State Univers...
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Solvation Dynamics and Proton Transfer in Diethylaminohydroxyflavone Christopher A Rumble, Jens Breffke, and Mark Maroncelli J. Phys. Chem. B, Just Accepted Manuscript • DOI: 10.1021/acs.jpcb.6b12146 • Publication Date (Web): 21 Dec 2016 Downloaded from http://pubs.acs.org on December 27, 2016

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The Journal of Physical Chemistry

Solvation Dynamics and Proton Transfer in Diethylaminohydroxyflavone Christopher Rumble(a), Jens Breffke(a,b), and Mark Maroncelli* Department of Chemistry, The Pennsylvania State University, University Park, PA 16802

Abstract: 4’-N,N-diethylamino-3-hydroxyflavone (DEAHF) exhibits dual fluorescence in most solvents as a result of a rapid excited-state intramolecular proton transfer reaction. The high sensitivity of its dual emission to solvent polarity and hydrogen bonding make DEAHF of interest as a ratiometric fluorescence sensor. In addition, prior work has suggested that the rate of this proton transfer should depend on solvent relaxation in an unusual manner. In particular, it is proposed that rapid solvation of the initially excited reactant should retard reaction. The present work tests this idea by using femtosecond Kerr-gated emission spectroscopy to measure the reaction kinetics of DEAHF in mixtures of propylene carbonate (PC) + acetonitrile (ACN). This mixture was chosen to maintain constant solvent polarity and thereby constant reaction energies while varying solvation times ~10-fold with composition. The reaction kinetics observed in these mixtures are multi-exponential, consisting of resolvable components of ~2 ps and ~30 ps and a small fraction of reaction faster than detectable by the 400 fs resolution of the experiment. Average reaction times increase by approximately a factor of 2 as a function of ACN mole fraction, primarily as a result of changes to the slower component. This trend is opposite to the composition dependence of solvation times, thereby supporting the unusual role of polar solvation dynamics in this proton transfer. In n-alkane solvents, where electrostatic coupling is minimized, frictional properties of the solvent do not influence reaction rates.

________________________________ (a) Equal contributors. (b) Current address: National Institute of Standards and Technology, 100 Bureau Drive, Gaithersburg, MD 20899-8372 * Corresponding author, [email protected]

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The Journal of Physical Chemistry

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1. Introduction Excited-state intramolecular proton transfer (ESIPT) reactions, especially those resulting in dual fluorescence, have long served as model systems for probing of the kinetics of fast proton transfer.1,2 Recent interest has focused more on using such reactions in applications such as ratiometric sensing3,4 and creation of functional materials.5 In cases where electronic excitation entails substantial charge redistribution, as in proton coupled electron transfer reactions,6 one often observes large solvent effects.4 In the present study, we use time-resolved fluorescence spectroscopy to observe ESIPT in 4’-N,N-diethylamino-3-hydroxyflavone (DEAHF, Figure 1) in order to help clarify the role that solvation dynamics plays in determining its ESIPT rate. In the ground electronic state, DEAHF exists only in the “normal” (N) form. Excitation to the S1 state produces N*, from which reaction to the “tautomer” S1 state (T*) is accessible. In contrast to the