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Christina Krywka

Showing results (1-10 of 25) with videos related to

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Journal of Applied Crystallography|August 6, 2025
<i>Pydidas</i>: a tool for automated X-ray diffraction data analysisMalte Storm, Peter Staron, Christina Krywka
Journal of Applied Crystallography|February 6, 2026
Efficient detection of deformation-induced microstructural modifications in polycrystalline micropillars using scanning X-ray nanodiffractionAnton Davydok, Kritika Singh, Surya Snata Rout, et al.
Materials (Basel, Switzerland)|November 25, 2023
Local Structural Modifications in Metallic Micropillars Induced by Plasma Focused Ion Beam ProcessingKritika Singh, Surya Snata Rout, Christina Krywka, et al.
Physical Review Letters|August 7, 2007
Capturing the interaction potential of amyloidogenic proteinsNadeem Javid, Karsten Vogtt, Christina Krywka, et al.
Journal of Synchrotron Radiation|May 6, 2026
Integrated control of a nanoindenter and X-ray nanodiffraction for automated in situ nanomechanical studiesAnton Davydok, Otto Carlos Lippmann, Kritika Singh, et al.
Scientific Reports|September 30, 2024
The location of cationic substitutions in carbonated biomimetic apatites significantly affects crystal nanomechanicsStephanie Wong, Abigail Eaton, Christina Krywka, et al.
Journal of the Mechanical Behavior of Biomedical Materials|July 6, 2015
In situ compressibility of carbonated hydroxyapatite in tooth dentine measured under hydrostatic pressure by high energy X-ray diffractionJean-Baptiste Forien, Claudia Fleck, Christina Krywka, et al.
Acta Biomaterialia|January 14, 2021
Carbonate substitution significantly affects the structure and mechanics of carbonated apatitesBrian Wingender, Masashi Azuma, Christina Krywka, et al.
Journal of the Mechanical Behavior of Biomedical Materials|March 1, 2025
Increasing A-type CO<sub>3</sub><sup>2-</sup> substitution decreases the modulus of apatite nanocrystalsStephanie Wong, Abigail Eaton, Christina Krywka, et al.
Chemphyschem : a European Journal of Chemical Physics and Physical Chemistry|October 17, 2008
Effect of osmolytes on pressure-induced unfolding of proteins: a high-pressure SAXS studyChristina Krywka, Christian Sternemann, Michael Paulus, et al.
Pageof 3

Showing results (1-10 of 25) with videos related to

Sort By:
Pageof 3
Journal of Applied Crystallography|August 6, 2025
<i>Pydidas</i>: a tool for automated X-ray diffraction data analysisMalte Storm, Peter Staron, Christina Krywka
Journal of Applied Crystallography|February 6, 2026
Efficient detection of deformation-induced microstructural modifications in polycrystalline micropillars using scanning X-ray nanodiffractionAnton Davydok, Kritika Singh, Surya Snata Rout, et al.
Materials (Basel, Switzerland)|November 25, 2023
Local Structural Modifications in Metallic Micropillars Induced by Plasma Focused Ion Beam ProcessingKritika Singh, Surya Snata Rout, Christina Krywka, et al.
Physical Review Letters|August 7, 2007
Capturing the interaction potential of amyloidogenic proteinsNadeem Javid, Karsten Vogtt, Christina Krywka, et al.
Journal of Synchrotron Radiation|May 6, 2026
Integrated control of a nanoindenter and X-ray nanodiffraction for automated in situ nanomechanical studiesAnton Davydok, Otto Carlos Lippmann, Kritika Singh, et al.
Scientific Reports|September 30, 2024
The location of cationic substitutions in carbonated biomimetic apatites significantly affects crystal nanomechanicsStephanie Wong, Abigail Eaton, Christina Krywka, et al.
Journal of the Mechanical Behavior of Biomedical Materials|July 6, 2015
In situ compressibility of carbonated hydroxyapatite in tooth dentine measured under hydrostatic pressure by high energy X-ray diffractionJean-Baptiste Forien, Claudia Fleck, Christina Krywka, et al.
Acta Biomaterialia|January 14, 2021
Carbonate substitution significantly affects the structure and mechanics of carbonated apatitesBrian Wingender, Masashi Azuma, Christina Krywka, et al.
Journal of the Mechanical Behavior of Biomedical Materials|March 1, 2025
Increasing A-type CO<sub>3</sub><sup>2-</sup> substitution decreases the modulus of apatite nanocrystalsStephanie Wong, Abigail Eaton, Christina Krywka, et al.
Chemphyschem : a European Journal of Chemical Physics and Physical Chemistry|October 17, 2008
Effect of osmolytes on pressure-induced unfolding of proteins: a high-pressure SAXS studyChristina Krywka, Christian Sternemann, Michael Paulus, et al.
Pageof 3