H. Hoffman scite author profile

An overview of an important aspect of SANS research on charged colloidal suspensions is presented. These systems are characterized by pronounced interparticle correlations resulting from a strong and long-range double-layer interaction between macroions (i.e. the charged colloidal particles). Emphasis is laid on the use of simple statistical mechanical models, which are applicable in treating SANS data, that take into account the double-layer interaction. Examples are taken from work on dense protein solutions, ionic micellar solutions and protein-detergent complexes in aqueous solutions. Spherical and rod-like particles are considered. Polydispersity effects are taken into account whenever possible. In the case of rod-like systems, alignment by a shear gradient and the consequent analysis of two-dimensional SANS intensity distributions are briefly discussed.

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Nearest neighbor order in an aligned solution of interacting rod-like micelles

Kalus

Hoffman

1987

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Rod-like micelles of hexadecylpyridiniumsalicylate in aqueous solution were aligned by a shear gradient Γ of up to 40 s−1. Small angle neutron diffraction patterns of a solution of 20 mM/ℓ show a pronounced peak in scattering intensity at a momentum transfer of 0.15 nm−1 due to a correlation of the charged micelles. This correlation peak becomes deformed substantially with increasing Γ. A simple model is presented, taking into account an anisotropic change of the pair correlation function. It turns out that the order is reduced in the direction of the vector of velocity v of the sheared liquid and increases perpendicular to this vector.

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The Dynamics of Micelle Formation

Hoffman

1978

Ber Bunsenges Phys Chem

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The article presents kinetic data on micellar systems that were obtained with relaxation techniques. Problems that are relevant to the following topics are discussed in detail:1. Differences in the dynamic behaviour of micellar systems consisting of single-and double chain detergents. 2. The dynamics of micellar systems consisting of ionic detergents with hydrophobic counterions. 3. The dynamic behavior of micellar systems of perfluorated ionic detergents.For most of the systems two relaxation times could be observed which very often showed characteristic differences in their temperature and concentration dependence. The two relaxation processes were associated according to the theory of micelle formation by G. Aniansson and S. Wall to the shift of the micellar distribution curve and the change of the micelle concentration. The following parameters were evaluated from the data: The residence times of the detergent molecules inside the micelles, the mean aggregation number of the micelles, the width of the micellar distribution curves and the concentrations of the micellar nuclei and their aggregation numbers. Ber. Bunsenges. Phys. Chem. 82,988-1001 (1978) -0 Verlag Chemie, D-6940 Weinheim, 1978. 1. Die Unterschiede im dynamischen Verhalten von Mizellgleichgewichten bei ein-und zweikettigen Tensiden. 2. Das dynamische Verhalten von Mizellen aus ionogenen Tensiden mit hydrophoben Gegenionen. 3. Das dynamische Verhalten von Mizellen aus perfluorierten Tensiden. Bei den meisten Systemen konnten zwei Relaxationszeiten beobachtet werden, die fur die verschiedenen Systeme oft charakteristische Unterschiede in der Temperatur-und Konzentrationsabhangigkeit aufweisen. Die beiden Relaxationsprozesse wurden nach der Theorie der Mizellbildung von G. Aniansson und S. Wall der Verschiebung der Mizellverteilungskurve bei konstanter Mizellkonzentration und der Anderung der Mizellkonzentration zugeordnet. Aus den Relaxationszeiten wurden die Verweiizeiten der Tensidmolekiile in der Mizelle, die mittleren Aggregationszahlen der Mizellen, die Breite der Verteilungskurven und die Konzentration der Mizellkeime sowie deren Aggregationszahlen ermittelt. 9 -8t -6 'In Y ; $ 5m D -4 - -

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Transient small-angle neutron scattering of aligned micelles

Kalus

Lindner

Hoffman

et al. 1991

Physica B: Condensed Matter

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Surfactant interactions with P(AM–AA–BPAM) hydrophobically modified polyelectrolytes

Huang

Hoffman

2003

J of Applied Polymer Sci

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ABSTRACT:The interactions of hydrophobically modified polyelectrolytes poly(acrylamide-sodium acrylic acid-N-(4-butyl)phenylacrylamide [P(AM-AA-BPAM)] with anionic (sodium dodecyl sulfate), cationic (cetyl trimethylammonium bromide), and nonionic (tetradecyldimethylaminoxid) surfactants were studied via solution rheology, surface tension, and atomic force microscopy measurements. Viscosity measurements indicated that the intermolecular association of the polymer was greatly enhanced by the interaction with the surfactants, especially the oppositely charged surfactants with both a hydrophobic association and an electrostatic attraction. The greatest viscosity increase was realized with the addition of such oppositely charged surfactants.

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H. Hoffman

Small-angle neutron scattering investigation of correlations in charged macromolecular and supramolecular solutions

Nearest neighbor order in an aligned solution of interacting rod-like micelles

The Dynamics of Micelle Formation

Transient small-angle neutron scattering of aligned micelles

Surfactant interactions with P(AM–AA–BPAM) hydrophobically modified polyelectrolytes

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