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Publications at YU (student name is underlined, * - corresponding author):

1. Zalazar, M., Kalburge, S. J., Zhang Y., Drori, R.*, Inverse Relationship Between Ice Nucleation andIce Growth in Frozen Foods, Food Biophysics, In press. (2024)
2. Huard, D. J. E., Johnson, A. M., Fan, Z., Kenney, L. G., Xu, M., Drori, R., Gumbart, J. C., Dai, S., Lieberman, R. L., Glass, J. B.*, Molecular basis for destabilization of methane clathrate by a deep subsurface bacterial protein. PNAS Nexus, 2(8), pgad268 (2023).
3. Drori, R.*, and Stevens, C., Divergent Mechanisms of Ice Growth Inhibition by Antifreeze Proteins. Methods in Molecular Biology (book chapter). In-press (2023). 
4. Drori, R.*, Investigating the interaction between ice-binding proteins and ice surfaces using microfluidic devices and cold stages. Methods in Molecular Biology. (book chapter). In-press (2023).
5. Thosar, A. U, Shalom, Y., Braslavsky, I., Drori, R.*, Patel, A. J.*, Accumulation of Antifreeze Proteins on Ice is Determined by Adsorption. Journal of the American Chemical Society, 145, 32, 17597-17602 (2023).
6. Zalazar, M., Zypman, F., Drori, R.*, Micro-thermography for imaging ice crystal growth and nucleation inside non-transparent materials. Review of Scientific Instruments, 94 (5): 054903 (2023).
7. Drori, R.*, Shalom, Y., A Microfluidic Approach for the Study of Ice and Clathrate Hydrates Crystallization. The Journal of Visualized Experiments (186), e64072 (2022).
8. Soussana, T. N, Weissman, H., Rybtchinski, B., Drori, R.*, Adsorption-Inhibition of Clathrate Hydrates by Self-Assembled Nanostructures. ChemPhysChem, 22, 2182 (2021).
9. Deng, J., Apfelbaum, E., Drori, R.*, Ice Growth Acceleration by Antifreeze Proteins Leads to Higher Thermal Hysteresis Activity. The Journal of Physical Chemistry B, 124, 49, 11081–11088 (2020).
10. Shtukenberg, A.G.*, Drori R.*, Kahr. B.*, et al. (rank 2nd out of 14), Crystals of benzamide, the first polymorphous molecular compound, are helicoidal. Angewandte Chemie International Edition, 59, 14593 (2020).
11. Berger T., Meister K., DeVries A. L., Eves R., Davies P. L., Drori R.*, Synergy Between Antifreeze Proteins is Driven by Complementary Ice-Binding. Journal of the American Chemical Society, 141, 48, 19144–19150 (2019).
12. Meister K., DeVries A. L., Bakker H. J., Drori R.*, Antifreeze Glycoproteins Bind Irreversibly to Ice. Journal of the American Chemical Society, 140 (30), 9365-9368 (2018).
13. Drori R.*, Holmes-Cerfon M.*, Kahr B., Kohn R. V., Ward M. D.* Dynamics and Unsteady Morphologies at Ice Interfaces Driven by D2O-H2O Exchange. Proceedings of the National Academy of Sciences USA,114 (44) 11627-11632 (2017).

Selected publications before joining YU:

1. Drori R.*, Li C., Hu C., Raiteri P., Rohl A., Ward M. D., Kahr B.* A Supramolecular Ice Growth Inhibitor. Journal of the American Chemical Society, 138 (40), 13396–13401 (2016).

2. Drori R., Davies P. L., Braslavsky I.* When are Antifreeze Proteins in Solution Essential for Ice Growth Inhibition? Langmuir, 31 (21) 5805–5811 (2015).

3. Drori R., Davies P. L., Braslavsky I.* Experimental Correlation between Thermal Hysteresis Activity and the Distance between Antifreeze Proteins on an Ice Surface. Royal Society of Chemistry Advances, 5, 7848-7853 (2015).