Ultrafast transient absorption and solvation of a super-photoacid in acetoneous environments

Trieff, N. M., & Sundheim, B. R. (1965). The effect of solvent on the acid-base kinetics of the excited state of β-naphthol. The Journal of Physical Chemistry, 69, 2044–2059.

CAS  Article  Google Scholar 

Weber, K. (1931). Über die enge Beziehung der Fluorescenzauslöschung zur Hemmung photochemischer Reaktionen. Zeitschrift für Physikalische Chemie, 15B, 18–44.

Google Scholar 

Förster, T. (1949). Fluoreszenzspektrum und Wasserstoffionen-konzentration. Naturwissenschaften 36, 186–187.

Förster, T. (1950). Elektrolytische Dissoziation angeregter Moleküle. Zeitschrift für Elektrochemie und angewandte physikalische Chemie, 54, 42–46.

Google Scholar 

Braslavsky, S. E. (2007). Glossary of terms used in photochemistry, 3rd edition (IUPAC Recommendations 2006). Pure and Applied Chemistry, 79, 293–465.

Article  Google Scholar 

Marx, D., Tuckerman, M. E., Hutter, J., & Parrinello, M. (1999). The nature of the hydrated excess proton in water. Nature, 397, 601–604.

CAS  Article  Google Scholar 

Agmon, N. (1999). Proton solvation and proton mobility. Israel Journal of Chemistry, 39, 493–502.

CAS  Article  Google Scholar 

Kornyshev, A. A., Kuznetsov, A. M., Spohr, E., & Ulstrup, J. (2003). Kinetics of proton transport in water. The Journal of Physical Chemistry B, 107, 3351–3366.

CAS  Article  Google Scholar 

Knight, C., & Voth, G. A. (2012). The curious case of the hydrated proton. Accounts of Chemical Research, 45, 101–109.

CAS  PubMed  Article  Google Scholar 

Solntsev, K. M., Huppert, D., & Agmon, N. (1999). Photochemistry of “super”-photoacids. Solvent effects. The Journal of Physical Chemistry A, 103, 6984–6997.

CAS  Article  Google Scholar 

Simkovitch, R., Shomer, S., Gepshtein, R., & Huppert, D. (2015). How fast can a proton-transfer reaction be beyond the solvent-control limit? The Journal of Physical Chemistry B, 119, 2253–2262.

CAS  PubMed  Article  Google Scholar 

Tolbert, L. M., & Solntsev, K. M. (2002). Excited-state proton transfer: From constrained systems to “super” photoacids to superfast proton transfer. Accounts of Chemical Research, 35, 19–27.

CAS  PubMed  Article  Google Scholar 

Simkovitch, R., et al. (2013). Ultrafast excited-state proton transfer from hydroxycoumarin-dipicolinium cyanine dyes. Journal of Photochemistry and Photobiology A: Chemistry, 254, 45–53.

CAS  Article  Google Scholar 

Spies, C., Finkler, B., Acar, N., & Jung, G. (2013). Solvatochromism of pyranine-derived photoacids. Physical Chemistry Chemical Physics, 15, 19893–19905.

CAS  PubMed  Article  Google Scholar 

Finkler, B., et al. (2014). Highly photostable “super”-photoacids for ultrasensitive fluorescence spectroscopy. Photochemical & Photobiological Sciences, 13, 548–562.

CAS  Article  Google Scholar 

Spies, C., et al. (2014). Solvent dependence of excited-state proton transfer from pyranine-derived photoacids. Physical Chemistry Chemical Physics, 16, 9104–9114.

CAS  PubMed  Article  Google Scholar 

Kumpulainen, T., Rosspeintner, A., Dereka, B., & Vauthey, E. (2017). Influence of solvent relaxation on ultrafast excited-state proton transfer to solvent. The Journal of Physical Chemistry Letters, 8, 4516–4521.

CAS  PubMed  Article  Google Scholar 

Verma, P., Rosspeintner, A., Dereka, B., Vauthey, E., & Kumpulainen, T. (2020). Broadband fluorescence reveals mechanistic differences in excited-state proton transfer to protic and aprotic solvents. Chemical Science, 11, 7963–7971.

CAS  PubMed  PubMed Central  Article  Google Scholar 

Solntsev, K. M., Huppert, D., Agmon, N., & Tolbert, L. M. (2020). Photochemistry of “super” photoacids. 2. Excited-state proton transfer in methanol/water mixtures. The Journal of Physical Chemistry A, 104, 4658–4669.

Pérez-Lustres, J. L., et al. (2007). Ultrafast proton transfer to solvent: Molecularity and intermediates from solvation- and diffusion-controlled regimes. Journal of the American Chemical Society, 129, 5408–5418.

PubMed  Article  Google Scholar 

Sülzner, N., Geissler, B., Grandjean, A., Jung, G., & Nuernberger, P. (2022). Excited-state proton transfer dynamics of a super-photoacid in acetone-water mixtures. ChemPhotoChem, 6, e202200041.

Article  Google Scholar 

Prémont-Schwarz, M., Barak, T., Pines, D., Nibbering, E. T. J., & Pines, E. (2013). Ultrafast excited-state proton-transfer reaction of 1-naphthol-3,6-disulfonate and several 5-substituted 1-naphthol derivatives. The Journal of Physical Chemistry B, 117, 4594–4603.

PubMed  Article  Google Scholar 

Corani, A., et al. (2013). Excited-state proton-transfer processes of DHICA resolved: From sub-picoseconds to nanoseconds. Journal of Physical Chemistry Letters, 4, 1383–1388.

CAS  PubMed  Article  Google Scholar 

Pines, E., & Huppert, D. (1986). Geminate recombination proton-transfer reactions. Chemical Physics Letters, 126, 88–91.

CAS  Article  Google Scholar 

Pines, E., Huppert, D., & Agmon, N. (1988). Geminate recombination in excited-state proton-transfer reactions: Numerical solution of the Debye-Smoluchowski equation with backreaction and comparison with experimental results. The Journal of Chemical Physics, 88, 5620–5630.

CAS  Article  Google Scholar 

Pines, E., & Huppert, D. (1989). Salt effect in photoacid quantum yield measurements: A demonstration of the geminate recombination role in deprotonation reactions. Journal of the American Chemical Society, 111, 4096–4097.

CAS  Article  Google Scholar 

Tran-Thi, T.-H., Gustavsson, T., Prayer, C., Pommeret, S., & Hynes, J. T. (2000). Primary ultrafast events preceding the photoinduced proton transfer from pyranine to water. Chemical Physics Letters, 329, 421–430.

CAS  Article  Google Scholar 

Tran-Thi, T.-H., Prayer, C., Millié, Ph., Uznanski, P., & Hynes, J. T. (2002). Substituent and solvent effects on the nature of the transitions of pyrenol and pyranine. Identification of an intermediate in the excited-state proton-transfer reaction. The Journal of Physical Chemistry A, 106, 2244–2255.

Mohammed, O. F., Dreyer, J., Magnes, B.-Z., Pines, E., & Nibbering, E. T. J. (2005). Solvent-dependent photoacidity state of pyranine monitored by transient mid-infrared spectroscopy. ChemPhysChem, 6, 625–636.

CAS  PubMed  Article  Google Scholar 

Pines, E., Pines, D., Ma, Y.-Z., & Fleming, G. R. (2004). Femtosecond pump-probe measurements of solvation by hydrogen-bonding interactions. ChemPhysChem, 5, 1315–1327.

CAS  PubMed  Article  Google Scholar 

Mondal, S. K., et al. (2005). Excited state proton transfer of pyranine in a γ-cyclodextrin cavity. Chemical Physics Letters, 412, 228–234.

CAS  Article  Google Scholar 

Gepshtein, R., Leiderman, P., Genosar, L., & Huppert, D. (2005). Testing the three step excited state proton transfer model by the effect of an excess proton. The Journal of Physical Chemistry A, 109, 9674–9684.

CAS  PubMed  Article  Google Scholar 

Leiderman, P., Genosar, L., & Huppert, D. (2005). Excited-state proton transfer: Indication of three steps in the dissociation and recombination process. The Journal of Physical Chemistry A, 109, 5965–5977.

CAS  PubMed  Article  Google Scholar 

Mohammed, O. F., Pines, D., Nibbering, E. T., & Pines, E. (2007). Base-induced solvent switches in acid-base reactions. Angewandte Chemie International Edition, 46, 1458–1461.

CAS  PubMed  Article  Google Scholar 

Spry, D. B., Goun, A., Glusac, K., Moilanen, D. E., & Fayer, M. D. (2007). Proton transport and the water environment in nafion fuel cell membranes and AOT reverse micelles. Journal of the American Chemical Society, 129, 8122–8130.

CAS  PubMed  Article  Google Scholar 

Spry, D. B., Goun, A., & Fayer, M. D. (2007). Deprotonation dynamics and Stokes shift of pyranine (HPTS). The Journal of Physical Chemistry A, 111, 230–237.

CAS  PubMed  Article  Google Scholar 

Spry, D. B., & Fayer, M. D. (2007). Observation of slow charge redistribution preceding excited-state proton transfer. The Journal of Chemical Physics, 127, 204501.

CAS  PubMed  Article  Google Scholar 

Spry, D. B., & Fayer, M. D. (2008). Charge redistribution and photoacidity: Neutral versus cationic photoacids. The Journal of Chemical Physics, 128, 084508.

CAS  PubMed  Article  Google Scholar 

Tielrooij, K. J., Cox, M. J., & Bakker, H. J. (2009). Effect of confinement on proton-transfer reactions in water nanopools. ChemPhysChem, 10, 245–251.

CAS  PubMed  Article  Google Scholar 

Cohen, B., Martin Álvarez, C., Alarcos Carmona, N., Organero, J. A., & Douhal, A. (2011). Proton-transfer reaction dynamics within the human serum albumin protein. The Journal of Physical Chemistry B, 115, 7637–7647.

Carmona, N. A., Cohen, B., Organero, J. A., & Douhal, A. (2012). Excited state intermolecular proton and energy transfer of 1-hydroxypyrene interacting with the human serum albumin protein. Journal of Photochemistry and Photobiology A: Chemistry, 234, 3–11.

CAS  Article  Google Scholar 

Wang, Y., et al. (2013). Early time excited-state structural evolution of pyranine in methanol revealed by femtosecond stimulated Raman spectroscopy. The Journal of Physical Chemistry A, 117, 6024–6042.

CAS  PubMed  Article  Google Scholar 

Han, F., Liu, W., & Fang, C. (2013). Excited-state proton transfer of photoexcited pyranine in water observed by femtosecond stimulated Raman spectroscopy. Chemical Physics, 422, 204–219.

CAS  Article  Google Scholar 

Liu, W., et al. (2016). Panoramic portrait of primary molecular events preceding excited state proton transfer in water. Chemical Science, 7, 5484–5494.

CAS  PubMed  PubMed Central  Article 

留言 (0)

沒有登入
gif