P
Peter Holmqvist
Researcher at Lund University
Publications - 24
Citations - 1045
Peter Holmqvist is an academic researcher from Lund University. The author has contributed to research in topics: Dynamic light scattering & Scattering. The author has an hindex of 15, co-authored 21 publications receiving 941 citations. Previous affiliations of Peter Holmqvist include University at Buffalo & Forschungszentrum Jülich.
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Modification of the microstructure in block copolymer-water- oil systems by varying the copolymer composition and the oil type : small-angle x-ray scattering and deuterium-nmr investigation
TL;DR: In this paper, the effects of block composition on the self-assembly and resulting microstructure of amphiphilic block copolymers in the presence of selective solvents (water and oil) were examined.
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Modification of the Microstructure in Poloxamer Block Copolymer-Water-``Oil'' Systems by Varying the ``Oil'' Type
TL;DR: The location of the oils in the different self-assembled microstructures has been deduced from the structural dimensions obtained from SAXS and the constraints imposed by the copolymer total volume fraction and interfacial area.
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Phase behavior and structure of ternary amphiphilic block copolymer-alkanol-water systems: Comparison of poly(ethylene oxide)/poly(propylene oxide) to poly(ethylene oxide)/poly(tetrahydrofuran) copolymers
TL;DR: In this paper, the phase behavior of amphiphilic copolymer−alkanol−water ternary systems was investigated for triblock copolymers of similar molecular weight and the same hydrophilic block [poly(ethylene oxide), E] but having different hydrophobic blocks (poly(propylene oxide), P, or poly(n-butylene oxide) = poly(tetrahydrofuran), T].
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Pair structure of the hard-sphere Yukawa fluid: an improved analytic method versus simulations, Rogers-Young scheme, and experiment.
TL;DR: An improved version of the so-called penetrating-background corrected rescaled mean spherical approximation (PB-RMSA) by Snook and Hayter is shown to give pair structure functions which are in general in very good agreement with Monte Carlo simulations and results from the accurate but nonanalytical Rogers-Young integral equation scheme.
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Thermosetting microemulsions and mixed micellar solutions as drug delivery systems for periodontal anesthesia.
TL;DR: T thermosetting microemulsions and mixed micellar solutions were investigated as drug delivery systems for anesthetizing the periodontal pocket and indicated a preferential solubilization of the active components in micelles over unimers.