In his research, Krystyn J. Van Vliet performs multidisciplinary study on Cell biology and Immunology. His work blends Immunology and Genetics studies together. Many of his studies on Genetics apply to Mesenchymal stem cell as well. His Mesenchymal stem cell study often links to related topics such as Cell biology. Many of his studies on Stem cell involve topics that are commonly interrelated, such as Multipotent Stem Cell. His research on Multipotent Stem Cell often connects related topics like Progenitor cell. In his study, he carries out multidisciplinary Progenitor cell and Stem cell research. His study on Biochemistry is mostly dedicated to connecting different topics, such as In vitro. His In vitro study frequently links to related topics such as Biochemistry.
Cell biology and Intracellular are frequently intertwined in his study. His study connects Biochemistry and Intracellular. His Actin research extends to Biochemistry, which is thematically connected. His Actin study typically links adjacent topics like Cell biology. As part of his studies on Composite material, he frequently links adjacent subjects like Adhesion. His research combines Composite material and Adhesion. Krystyn J. Van Vliet frequently studies issues relating to Brain tissue and Biomedical engineering. His Brain tissue study frequently draws connections to adjacent fields such as Biomedical engineering. His multidisciplinary approach integrates Cell and Cytoskeleton in his work.
His research ties Brain tissue and Biomedical engineering together. In most of his Brain tissue studies, his work intersects topics such as Biomedical engineering. As part of his studies on Radiology, Krystyn J. Van Vliet often connects relevant areas like White matter. Borrowing concepts from Magnetic resonance imaging, he weaves in ideas under White matter. He undertakes interdisciplinary study in the fields of Magnetic resonance imaging and Radiology through his research. He integrates Rheology and Viscoelasticity in his studies. While working on this project, Krystyn J. Van Vliet studies both Viscoelasticity and Elastomer. His Mechanics study frequently draws parallels with other fields, such as Cavitation. His Mechanics research extends to Cavitation, which is thematically connected.
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A realistic molecular model of cement hydrates
Roland J. M. Pellenq;Akihiro Kushima;Rouzbeh Shahsavari;Krystyn J. Van Vliet.
Proceedings of the National Academy of Sciences of the United States of America (2009)
Atomistic mechanisms governing elastic limit and incipient plasticity in crystals
Ju Li;Krystyn J. Van Vliet;Ting Zhu;Sidney Yip.
Combinatorial development of biomaterials for clonal growth of human pluripotent stem cells
Ying Mei;Krishanu Saha;Said R. Bogatyrev;Jing Yang.
Nature Materials (2010)
Design of Antibacterial Surfaces and Interfaces: Polyelectrolyte Multilayers as a Multifunctional Platform
Jenny A. Lichter;Krystyn J. Van Vliet;Michael F. Rubner.
Quantifying the early stages of plasticity through nanoscale experiments and simulations
Krystyn J. Van Vliet;Ju Li;Ting Zhu;Sidney Yip.
Physical Review B (2003)
Predictive modeling of nanoindentation-induced homogeneous dislocation nucleation in copper
Ting Zhu;Ju Li;Ju Li;Krystyn J. Van Vliet;Krystyn J. Van Vliet;Shigenobu Ogata.
Journal of The Mechanics and Physics of Solids (2004)
Simulation of defect nucleation in a crystal
Andrew Gouldstone;Andrew Gouldstone;Krystyn J. Van Vliet;Subra Suresh.
Tuning compliance of nanoscale polyelectrolyte multilayers to modulate cell adhesion.
Michael T. Thompson;Michael C. Berg;Irene S. Tobias;Michael F. Rubner.
Substrata mechanical stiffness can regulate adhesion of viable bacteria.
Jenny A. Lichter;M. Todd Thompson;Maricela Delgadillo;Takehiro Nishikawa.
Contact creep compliance of viscoelastic materials via nanoindentation
Catherine A. Tweedie;Krystyn J. Van Vliet.
Journal of Materials Research (2006)
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