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- 2004
- Phase behavior of the monoolein-water system - The effects of addition of the hydrocarbon 1,8-cineole and supercritical carbon dioxide
- Surfactant/nonionic polymer interaction. a NMR diffusometry and NMR electrophoretic investigation
- Phase behavior of the system lecithin-water - The effects of addition of the hydrocarbon 1,8-cineole and supercritical carbon dioxide
- Spontaneous vesicle formation in a block copolymer system
- NMR diffusometry and the short gradient pulse limit approximation
- NMR studies of molecular mobility in a DNA-amphiphile complex
- 2003
- Diffusion in an inhomogeneous system: NMR studies of diffusion in highly concentrated emulsions
- Experimental determination of pore shape and size using q-space NMR microscopy in the long diffusion-time limit
- Aggregation in a protein-surfactant system. The interplay between hydrophobic and electrostatic interactions
- Molecular self-diffusion in micellar and discrete cubic phases of an ionic surfactant with mixed monovalent/polymeric counterions
- Electrophoretic and diffusion NMR as a method to study interactions between ionic surfactant and non-ionic polymers
- Liquid crystalline properties and extractability of monoolein-water systems by supercritical carbon dioxide
- Nuclear magnetic resonance studies of water self-diffusion in porous systems
- 2002
- H-1 NMR diffusometry study of water in casein dispersions and gels
-
Amphiphilic polymer gel electrolytes. 4. Ion transport and dynamics as studied by multinuclear pulsed field gradient spin-echo NMR
Gavelin, Patrik LU ; Jannasch, Patric LU
;
Furo, Istvan
;
Pettersson, Erik
;
Stilbs, Peter
;
Topgaard, Daniel
LU
and
Söderman, Olle
LU
(2002)
In Macromolecules
35(13).
p.5097-5104
Mark
- Self-diffusion of nonfreezing water in porous carbohydrate polymer systems studied with nuclear magnetic resonance
- Restricted self-diffusion of water in a highly concentrated W/O emulsion studied using modulated gradient spin-echo NMR
- A NMR self-diffusion study of the porous structure of starch granules
- Changes of cellulose fiber wall structure during drying investigated using NMR self-diffusion and relaxation experiments
- NMR in colloid science with special emphasis on self-aggregating systems
- Self-diffusion in two- and three-dimensional powders of anisotropic domains: An NMR study of the diffusion of water in cellulose and starch