P
Peter Schurtenberger
Researcher at Lund University
Publications - 278
Citations - 14493
Peter Schurtenberger is an academic researcher from Lund University. The author has contributed to research in topics: Light scattering & Scattering. The author has an hindex of 65, co-authored 271 publications receiving 13402 citations. Previous affiliations of Peter Schurtenberger include Portland State University & Humboldt University of Berlin.
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Scattering Functions of Semidilute Solutions of Polymers in a Good Solvent
TL;DR: In this article, three different scattering function expressions are derived from Monte Carlo simulations for analyzing small-angle scattering data from polystyrene in deuterated toluene for a broad range of molar masses and concentrations over a wide range of scattering vectors.
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Phase separation and dynamical arrest for particles interacting with mixed potentials—the case of globular proteins revisited
TL;DR: In this article, the authors examined the applicability of the extended law of corresponding states (ELCS) to equilibrium and non-equilibria features of the state diagram of the globular protein lysozyme.
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Wormlike Micelles as “Equilibrium Polyelectrolytes”: Light and Neutron Scattering Experiments
Cornelia Sommer,Jan Skov Pedersen,Stefan U. Egelhaaf,Luigi Cannavacciuolo,Joachim Kohlbrecher,Peter Schurtenberger +5 more
TL;DR: In this paper, aqueous solutions of giant polymer-like nonionic micelles "doped" with small amounts of ionic surfactants serve as ideal model systems for equilibrium polyelectrolytes.
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Hydrodynamic properties of magnetic nanoparticles with tunable shape anisotropy: prediction and experimental verification.
TL;DR: The characterization of the hydrodynamic properties of anisotropic magnetic nanoparticles using a combination of transmission electron microscopy and dynamic as well as depolarized dynamic light scattering (DLS/DDLS) and an enhanced sensitivity of the rotational diffusion for the surface properties of ellipsoidal nanoparticles is demonstrated.
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Thermodynamics of a nonionic sponge phase
TL;DR: This study revisits the sponge phase with two series of thermodynamic data performed on the well-characterized C(12)E(5)-n-decane-H(2)O system and uses these tools to quantitatively test parameters obtained by different experimental techniques and assumptions inherited in theoretical models designed to interpret them.