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Room temperature, high-yield synthesis of block copolymer-mediated gold nanoparticles
Ray, D., Aswal, V. K., & Kohlbrecher, J. (2010). Room temperature, high-yield synthesis of block copolymer-mediated gold nanoparticles. In D. K. Aswal & A. K. Debnath (Eds.), AIP conference proceedings: Vol. 1313. International conference on physics of emerging functional materials (PEFM-2010) (pp. 192-194). https://doi.org/10.1063/1.3530487
Interaction of mono-carboxylic acids in benzene studied by small-angle neutron scattering
Petrenko, V. I., Avdeev, M. V., Almásy, L., Bulavin, L. A., Aksenov, V. L., Rosta, L., & Garamus, V. M. (2009). Interaction of mono-carboxylic acids in benzene studied by small-angle neutron scattering. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 337(1-3), 91-95. https://doi.org/10.1016/j.colsurfa.2008.12.001
SANS and DLS studies of protein unfolding in presence of urea and surfactant
Aswal, V. K., Chodankar, S. N., Kohlbrecher, J., Vavrin, R., & Wagh, A. G. (2008). SANS and DLS studies of protein unfolding in presence of urea and surfactant. In A. Ikram, A. Purwanto, A. Zulfia, S. Hendrana, & Z. Nurachman (Eds.), AIP conference proceedings: Vol. 989. Neutron and X-ray scattering in materials science and biology (pp. 53-58). https://doi.org/10.1063/1.2906093
Small-angle neutron scattering study of structural evolution of different phases in protein solution
Aswal, V. K., Chodankar, S., Kohlbrecher, J., Vavrin, R., & Wagh, A. G. (2008). Small-angle neutron scattering study of structural evolution of different phases in protein solution. Pramana: Journal of Physics, 71(4), 877-885. https://doi.org/10.1007/s12043-008-0196-8
Micellar structures of hydrophilic/lipophilic and hydrophilic/fluorophilic poly(2-oxazoline) diblock copolymers in water
Ivanova, R., Komenda, T., Bonné, T. B., Lüdtke, K., Mortensen, K., Pranzas, P. K., … Papadakis, C. M. (2008). Micellar structures of hydrophilic/lipophilic and hydrophilic/fluorophilic poly(2-oxazoline) diblock copolymers in water. Macromolecular Chemistry and Physics, 209(21), 2248-2258. https://doi.org/10.1002/macp.200800232
Time evolution of crystallization phase of lysozyme protein in aqueous salt solution as studied by scattering techniques
Chodankar, S., Aswal, V. K., Kohlbrecher, J., Hassan, P. A., & Wagh, A. G. (2007). Time evolution of crystallization phase of lysozyme protein in aqueous salt solution as studied by scattering techniques. Physica B: Condensed Matter, 398(1), 164-171. https://doi.org/10.1016/j.physb.2007.05.013
Effect of magnetic field annealing on the soft magnetic properties of nanocrystalline materials
Ito, N., Michels, A., Kohlbrecher, J., Garitaonandia, J. S., Suzuki, K., & Cashion, J. D. (2007). Effect of magnetic field annealing on the soft magnetic properties of nanocrystalline materials. Journal of Magnetism and Magnetic Materials, 316(2), 458-461. https://doi.org/10.1016/j.jmmm.2007.03.121
In-situ- polymerization as a route towards transparent nanocomposites: time-resolved light scattering experiments
Saric, M., Dietsch, H., & Schurtenberger, P. (2006). In-situ- polymerization as a route towards transparent nanocomposites: time-resolved light scattering experiments. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 291(1-3), 110-116. https://doi.org/10.1016/j.colsurfa.2006.06.046
SANS investigation of precipitate microstructure in nickel-base superalloys Waspaloy and DT750
Strunz, P., Zrník, J., Seliga, T., & Penkalla, H. J. (2006). SANS investigation of precipitate microstructure in nickel-base superalloys Waspaloy and DT750. Zeitschrift für Kristallographie, 2(23), 363-368.
Contrast variation SANS experiments to the study of detergent-induced micellization of block copolymers
Aswal, V. K., & Kohlbrecher, J. (2004). Contrast variation SANS experiments to the study of detergent-induced micellization of block copolymers. Pramana: Journal of Physics, 63(2), 339-343. https://doi.org/10.1007/BF02704995
SANS study of colloidal aggregates of silicon tetraethoxide in basic ethanol/water solutions
Avdeev, M. V., Aksenov, V. L., Kohlbrecher, J., & Rosta, L. (2004). SANS study of colloidal aggregates of silicon tetraethoxide in basic ethanol/water solutions. Physica B: Condensed Matter, 350(1-3), E905-E908. https://doi.org/10.1016/j.physb.2004.03.234
SANS investigations of pore anisotropy in superplastically deformed ceramics
Ryukhtin, V., Šaroun, J., Harjo, S., Motohashi, Y., Wiedenmann, A., & Strunz, P. (2004). SANS investigations of pore anisotropy in superplastically deformed ceramics. Physica B: Condensed Matter, 350(1-3 Suppl.), e1019-e1022. https://doi.org/10.1016/j.physb.2004.03.280
SANS-II at SINQ: installation of the former Risø-SANS facility
Strunz, P., Mortensen, K., & Janssen, S. (2004). SANS-II at SINQ: installation of the former Risø-SANS facility. Physica B: Condensed Matter, 350(1-3), e783-e786. https://doi.org/10.1016/j.physb.2004.03.204
A high-temperature cell for in situ small-angle neutron scattering studies of phase separation in alloys
Kompatscher, M., Bär, M., Hecht, J., Muheim, C., Kohlbrecher, J., Kostorz, G., & Wagner, W. (2002). A high-temperature cell for in situ small-angle neutron scattering studies of phase separation in alloys. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 495(1), 40-47. https://doi.org/10.1016/S0168-9002(02)01565-6
Chain deformation in filled elastomers: a SANS approach
Botti, A., Pyckhout-Hintzen, W., Richter, D., Straube, E., Urban, V., & Kohlbrecher, J. (2000). Chain deformation in filled elastomers: a SANS approach. Physica B: Condensed Matter, 276-278, 371-372. https://doi.org/10.1016/S0921-4526(99)01567-7
Vortex studies in heavy-ion irradiated Bi<sub>2.15</sub>Sr<sub>1.85</sub>CaCu<sub>2</sub>O<sub>8+<em>δ</em></sub> probed by μSR and small-angle neutron scattering
Ogrin, F. Y., Lee, S. L., Ager, C., Aegerter, C. M., Forgan, E. M., Lloyd, S. H., … Wirth, G. (2000). Vortex studies in heavy-ion irradiated Bi2.15Sr1.85CaCu2O8+δ probed by μSR and small-angle neutron scattering. Physica B: Condensed Matter, 289-290, 355-359. https://doi.org/10.1016/S0921-4526(00)00410-5