Issue 25, 2012

Water-wire catalysis in photoinduced acid–base reactions

Abstract

The pronounced ability of water to form a hyperdense hydrogen (H)-bond network among itself is at the heart of its exceptional properties. Due to the unique H-bonding capability and amphoteric nature, water is not only a passive medium, but also behaves as an active participant in many chemical and biological reactions. Here, we reveal the catalytic role of a short water wire, composed of two (or three) water molecules, in model aqueous acid–base reactions synthesizing 7-hydroxyquinoline derivatives. Utilizing femtosecond-resolved fluorescence spectroscopy, we tracked the trajectories of excited-state proton transfer and discovered that proton hopping along the water wire accomplishes the reaction more efficiently compared to the transfer occurring with bulk water clusters. Our finding suggests that the directionality of the proton movements along the charge-gradient H-bond network may be a key element for long-distance proton translocation in biological systems, as the H-bond networks wiring acidic and basic sites distal to each other can provide a shortcut for a proton in searching a global minimum on a complex energy landscape to its destination.

Graphical abstract: Water-wire catalysis in photoinduced acid–base reactions

Article information

Article type
Paper
Submitted
29 Nov 2011
Accepted
01 Feb 2012
First published
22 Feb 2012

Phys. Chem. Chem. Phys., 2012,14, 8974-8980

Water-wire catalysis in photoinduced acid–base reactions

O. Kwon and O. F. Mohammed, Phys. Chem. Chem. Phys., 2012, 14, 8974 DOI: 10.1039/C2CP23796B

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