The dynamics of water in Aerosol-OT reverse micelles are investigated with ultrafast infrared spectroscopy of the hydroxyl stretch. In large reverse micelles, the dynamics of water are separable into two ensembles: slow interfacial water and bulklike core water. As the reverse micelle size decreases, the slowing effect of the interface and the collective nature of water reorientation begin to slow the dynamics of the core water molecules. In the smallest reverse micelles, these effects dominate and all water molecules have the same long time reorientational dynamics. To understand and characterize the transition in the water dynamics from two ensembles to collective reorientation, polarization and frequency selective infrared pump-probe experiments are conducted on the complete range of reverse micelle sizes from a diameter of 1.6–20 nm. The crossover between two ensemble and collective reorientation occurs near a reverse micelle diameter of 4 nm. Below this size, the small number of confined water molecules and structural changes in the reverse micelle interface leads to homogeneous long time reorientation.
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7 July 2009
Research Article|
July 07 2009
Water dynamics in large and small reverse micelles: From two ensembles to collective behavior
David E. Moilanen;
David E. Moilanen
Department of Chemistry,
Stanford University
, Stanford, California 94305, USA
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Emily E. Fenn;
Emily E. Fenn
Department of Chemistry,
Stanford University
, Stanford, California 94305, USA
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Daryl Wong;
Daryl Wong
Department of Chemistry,
Stanford University
, Stanford, California 94305, USA
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Michael D. Fayer
Michael D. Fayer
a)
Department of Chemistry,
Stanford University
, Stanford, California 94305, USA
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a)
Electronic mail: fayer@stanford.edu.
J. Chem. Phys. 131, 014704 (2009)
Article history
Received:
April 23 2009
Accepted:
June 08 2009
Citation
David E. Moilanen, Emily E. Fenn, Daryl Wong, Michael D. Fayer; Water dynamics in large and small reverse micelles: From two ensembles to collective behavior. J. Chem. Phys. 7 July 2009; 131 (1): 014704. https://doi.org/10.1063/1.3159779
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