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A light-scattering goniometer for evanescent-wave dynamic light scattering (EWDLS) measurements at a liquid-fluid interface is introduced, and used for measurements on two charge-stabilized polystyrene colloid systems adsorbed to alkane-water interfaces. The goniometer allows an independent variation of the penetration depth and the scattering vector components parallel and perpendicular to a liquid-fluid interface. The possible illumination geometries are compared. Ellipsometry at the liquid-fluid interface is implemented as a complementary tool. In EWDLS measurements, the absence of diffusive motion perpendicular to the interface is demonstrated, which confirms the adsorption of the particles. The two-step decay of the autocorrelation function is interpreted in terms of diffusion within a two-dimensional interface lattice of colloidal particles, stabilized by repulsive electrostatic interactions, and a desorption process. A significant slowing down of the in-plane diffusion of the colloids as compared to the bulk diffusion is observed.

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Multiple-scattering effects on static light-scattering optical structure factor measurements

Mokhtari

Sorensen

Chakrabarti

2005

Appl. Opt.

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We show that the extent and effect of multiple scattering on angularly resolved light-scattering intensity measurements, the optical structure factor, can be quantitatively described by a single parameter, the average number of scattering events along the scattering volume. This quantity is easily measured or calculated and hence provides a useful experimental indicator of multiple scattering, which is a hindrance to accurate structure factor measurements.

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Controlling Interfacial Film Formation in Mixed Polymer–Surfactant Systems by Changing the Vapor Phase

et al. 2014

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Here we show that transport-generated phase separation at the air-liquid interface in systems containing self-assembling amphiphilic molecules and polymers can be controlled by the relative humidity (RH) of the air. We also show that our observations can be described quantitatively with a theoretical model describing interfacial phase separation in a water gradient that we published previously. These phenomena arises from the fact that the water chemical potential corresponding to the ambient RH will, in general, not match the water chemical potential in the open aqueous solution. This implies nonequilibrium conditions at the air-water interface, which in turn can have consequences on the molecular organization in this layer. The experimental setup is such that we can control the boundary conditions in RH and thereby verify the predictions from the theoretical model. The polymer-surfactant systems studied here are composed of polyethylenimine (PEI) and hexadecyltrimethylammonium bromide (CTAB) or didecyldimethylammonium bromide (DDAB). Grazing-incidence small-angle X-ray scattering results show that interfacial phases with hexagonal or lamellar structure form at the interface of dilute polymer-surfactant micellar solutions. From spectroscopic ellipsometry data we conclude that variations in RH can be used to control the growth of micrometer-thick interfacial films and that reducing RH leads to thicker films. For the CTAB-PEI system, we compare the phase behavior of the interfacial phase to the equilibrium bulk phase behavior. The interfacial film resembles the bulk phases formed at high surfactant to polymer ratio and reduced water contents, and this can be used to predict the composition of interfacial phase. We also show that convection in the vapor phase strongly reduces film formation, likely due to reduction of the unstirred layer, where diffusive transport is dominating.

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Catalytic properties ofCandida antarcticalipase B clusters solubilized in hexane

Thielmann

Mokhtari²,

Sorensen³

et al. 2009

Biocatalysis and Biotransformation

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The objective of this work was to investigate the particle size and determine the catalytic competency of a solubilized lipase in hexane. Purified Candida antarctica lipase B (CALB) was solubilized in hexane using the non-ionic surfactant Span 60. The amount of surfactant was chosen so that complete coverage of the individual enzyme molecules with surfactant was not possible. Dynamic Light Scattering (DLS) was used to directly investigate the particle size of the solubilized entities. The enzyme was found to be solubilized in the form of clusters of lipase molecules with a radius of 3795 nm at 428C, which we estimate to correspond to about 1200 CALB molecules. The solubilized enzyme clusters showed lower catalytic activity in a model esterification reaction in hexane compared with a commercial immobilizate of the same enzyme (Novozym 435). Further gains in catalytic activity may be possible by striving for true molecular-level dispersion of the enzyme in hexane.

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Tahereh Mokhtari

The effect of shear on colloidal aggregation and gelation studied using small-angle light scattering

Evanescent-wave dynamic light scattering at an oil-water interface: Diffusion of interface-adsorbed colloids

Multiple-scattering effects on static light-scattering optical structure factor measurements

Controlling Interfacial Film Formation in Mixed Polymer–Surfactant Systems by Changing the Vapor Phase

Catalytic properties ofCandida antarcticalipase B clusters solubilized in hexane

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