Inhomogeneous dynamics in confined water nanodroplets
- 17 October 2006
- journal article
- Published by Proceedings of the National Academy of Sciences in Proceedings of the National Academy of Sciences
- Vol. 103 (42) , 15355-15358
- https://doi.org/10.1073/pnas.0603239103
Abstract
The effect of confinement on the dynamical properties of liquid water was studied by mid-infrared ultrafast pump-probe spectroscopy on HDO:D2O in reverse micelles. By preparing water-containing reverse micelles of different well defined sizes, we varied the degree of geometric confinement in water nanodroplets with radii ranging from 0.2 to 4.5 nm. We find that water molecules located near the interface confining the droplet exhibit slower vibrational energy relaxation and have a different spectral absorption than those located in the droplet core. As a result, we can measure the orientational dynamics of these different types of water with high selectivity. We observe that the water molecules in the core show similar orientational dynamics as bulk water and that the water layer solvating the interface is highly immobile.Keywords
This publication has 34 references indexed in Scilit:
- Local hydrogen bonding dynamics and collective reorganization in water: Ultrafast infrared spectroscopy of HOD/D2OThe Journal of Chemical Physics, 2005
- Molecular Modeling and Simulations of AOT−Water Reverse Micelles in Isooctane: Structural and Dynamic PropertiesThe Journal of Physical Chemistry B, 2004
- Liquid Order at the Interface of KDP Crystals with Water: Evidence for Icelike LayersPhysical Review Letters, 2003
- Vibrational spectroscopy of HOD in liquid D2O. III. Spectral diffusion, and hydrogen-bonding and rotational dynamicsThe Journal of Chemical Physics, 2003
- Simulation of Interfacial Metal Electrodeposition: The Electrochemical Model and the Numerical ImplementationThe Journal of Physical Chemistry B, 2002
- Hydrogen-Bond Dynamics near a Micellar Surface: Origin of the Universal Slow Relaxation at Complex Aqueous InterfacesPhysical Review Letters, 2002
- Size Dependent Ultrafast Cooling of Water Droplets in Microemulsions by Picosecond Infrared SpectroscopyPhysical Review Letters, 2002
- Infrared and Dielectric Study of Ca(AOT)2Reverse MicellesThe Journal of Physical Chemistry B, 1999
- Atomic-Level Molecular Modeling of AOT Reverse Micelles. 1. The AOT Molecule in Water and Carbon TetrachlorideLangmuir, 1999
- Voltage-dependent ordering of water molecules at an electrode–electrolyte interfaceNature, 1994