Density Depletion at Solid−Liquid Interfaces: a Neutron Reflectivity Study
Citations Over TimeTop 10% of 2006 papers
Abstract
Neutron reflectivity experiments conducted on self-assembled monolayers (SAMs) against polar (water) and nonpolar (organic) liquid phases reveal further evidence for a density reduction at hydrophobic-hydrophilic interfaces. The density depletion is found at the interface between hydrophobic dodecanethiol (C12) and hexadecanethiol (C16) SAMs and water and also between hydrophilic SAMs (C12/C11OH) and nonpolar fluids. The results show that the density deficit of a fluid in the boundary layer is not unique to aqueous solid-liquid interfaces but is more general and correlated with the affinity of the liquid to the solid surface. In water the variation of pH has only minor influence, while different electrolytes taken from the Hofmeister series seem to increase the depletion. On hydrophobic SAMs an increase in density depletion with temperature was observed, in agreement with Monte Carlo simulations performed on corresponding model systems. The increase in the water density depletion layer is governed by two effects: the surface energy difference between water and the substrate and the chemical potential of the aqueous phase.
Related Papers
- → Thin film and surface characterization by specular X-ray reflectivity(1997)250 cited
- → X-Ray Calc: A software for the simulation of X-ray reflectivity(2020)22 cited
- → Stabilization of Langmuir monolayer of hydrophobic thiocholesterol molecules(2008)8 cited
- → INVESTIGATION OF SOL-GEL GROWN ZnO THIN FILM: WAVELET ANALYSIS AND SIMULATED ANNEALING OPTIMIZED X-RAY REFLECTIVITY(2012)4 cited
- X-Ray Reflectivity for the characterisation of thin films(2004)