<\/p>\n\n\n\n
37. P. Huo#<\/sup>, W. Liu#<\/sup>, Z. B. Gu, M. Wang<\/strong>*, D. S. Deng*<\/strong>, Line-charge-mediated concentration enrichment in continuous shear flow toward portable membrane-free water purification<\/mark><\/a><\/em>,<\/mark> Nano Lett. <\/strong>25, 15731(2025)<\/a>.<\/a><\/p>\n\n\n\n 36. L. Chen, C. Cao, Y. Q. Li, W. N. Wu, M. Hu*<\/strong>, Q. Tong*<\/strong>, D. S. Deng*<\/strong>, Polygonal wrinkles in a soft solidified droplet<\/mark><\/em><\/a><\/span>, Nano Lett. <\/strong>25, 9899 <\/strong>(2025)<\/a>.<\/a><\/p>\n\n\n\n 35. M. Hu, F. Wang*<\/strong>, Y. Q. Li, L. Chen, W. N. Wu, P. Huo, D. S. Deng*<\/strong>, 3D periodic orbiting of a photothermal bubble<\/mark><\/em><\/a>, Phys. Rev. Lett. <\/strong>134, 104004 (2025).<\/a><\/p>\n\n\n\n 34. M. Hu, Y. Q. Li, L. Chen, W. N. Wu, P. Huo, X. Gu, F. Wang*<\/strong>, D. S. Deng*<\/strong>, A hovering bubble with a spontaneous horizontal oscillation<\/em><\/a><\/span>, Proc. Natl. Acad. Sci<\/strong>. 121, e2413880121 (2024)<\/a>.<\/p>\n\n\n\n 33. L. Chen, F. Wang, Y. R. Wang, P. Huo, Y. Q. Li, X. Gu, M. Hu, D. S. Deng*<\/strong>, Vertical-supercooling-controlled interfacial instability for a spreading liquid film<\/em><\/a><\/span>, Phys. Rev. Fluids <\/a><\/strong>9, L072001 (2024).<\/a><\/p>\n\n\n\n Twitter of Phys. Rev. Fluids: https:\/\/x.com\/PhysRevFluids\/status\/1808048018739921263<\/a><\/span>.<\/p>\n\n\n\n Facebook of American Physical Society: https:\/\/www.facebook.com\/watch\/?v=1158153002152011.<\/a><\/span><\/p>\n\n\n\n 32. X. Gu, L. Chen, F. Wang, Y. R. Wang, Y. Q. Li, W.N. Wu, M. Hu<\/strong>*, D. S. Deng<\/strong>*, Numerical simulation of droplet impacting on a microstructured surface: Geometry, wettability, and control of jump-off force<\/a><\/em><\/span>, Phys. Fluids <\/a><\/strong>36, 022025 (2024).<\/a><\/span><\/p>\n\n\n\n 31. F. Wang, L. Chen, Y. Q. Li, P. Huo, X. Gu, M. Hu, D. S. Deng<\/strong>*, Self-lifting<\/em> droplet driven by the solidification-induced solutal Marangoni flow<\/em><\/a><\/span>, Phys. Rev. Lett.<\/strong> 132, 014002 (2024).<\/a><\/p>\n\n\n\n 30. F. Wang, L. Chen, Y. Q. Li, X. Gu, P. Huo, M. Hu, D. S. Deng*<\/strong>, Droplet impacting on a supercooled immiscible liquid pool<\/a><\/em><\/span>, Phys. Fluids (Letter)<\/strong> 35, 081701 (2023).<\/a> (Featured Article).<\/p>\n\n\n\n 29. W. Esposito, L. Martin-Monier, P. Piveteau, B. R. Xu, D. S. Deng*<\/strong>, F. Sorin*, Controlled filamentation instability as a scalable fabrication approach to flexible metamaterials, <\/a><\/em>Nat. Commun. <\/strong><\/a>13, 6154 (2022).<\/a><\/span><\/p>\n\n\n\n 28. M. Hu*#<\/sup>, F. Wang#<\/sup>, L. Chen, P. Huo, Y. Q. Li, G. Xi, K. L. Chong, D. S. Deng<\/strong>*, Near-infrared-laser-navigated dancing bubble within water via a thermally conductive interface,<\/a><\/em><\/span> Nat. Commun. <\/strong>13, 5749 (2022).<\/a><\/p>\n\n\n\n 27. Z. B. Gu, B. R. Xu, P. Huo, M. Z. Su, D. S. Deng<\/strong>*, Electroconvection instability and shocks in complex geometries<\/a><\/em><\/span>, Curr. Opin. Colloid Interface Sci.<\/strong> 60, 101604, (2022)<\/a>. (Invited Review).<\/p>\n\n\n\n 26. Z. B. Gu, P. Huo, B. R. Xu, M. Z. Su, M. Z. Bazant*, D. S. Deng<\/strong>*, Electrokinetics in two-dimensional complicated geometries: Conformal mapping and experimental comparison<\/a><\/em><\/span>, Phys. Rev. Fluids<\/strong> 7, 033701 (2022)<\/a>.<\/p>\n\n\n\n 25. P. Huo, B. R. Xu, Z. B. Gu, M. Z. Su, S. M. Rubinstein, D. S. Deng<\/strong>*, Observation of remote electroconvection and inert-cation concentration valley within supporting electrolytes in a microfluidic-based electrochemical device<\/a><\/em><\/span>, Small 18<\/strong>, 2108037 (2022)<\/a>.<\/p>\n\n\n\n 24. X. Q. Pan, M. Hu, B. R. Xu, F. Wang, P. Huo, F. Q. Chen, Z. B. Gu, D. S. Deng<\/strong>*, Armstrong liquid bridge: Formation, evolution and breakup<\/a><\/span><\/em>, Phys. Rev. Fluids<\/strong> 6, 093901 (2021)<\/a>.<\/p>\n\n\n\n 23. B. R. Xu#<\/sup>, Z. B. Gu#<\/sup>, W. Liu, P. Huo, Y. T. Zhou, S. M. Rubinstein, M. Z. Bazant, B. Zaltzman, I. Rubinstein, D. S. Deng<\/strong>*, Electro-osmotic instability of concentration enrichment in curved geometries for an aqueous electrolyte<\/a><\/span><\/em>, Phys. Rev. Fluids<\/strong> 5, 091701(R) (2020)<\/a>.<\/p>\n\n\n\n 22. B. R. Xu*, D. S. Deng<\/strong>*, Linear analysis of dewetting instability in multilayer planar sheets for composite nanostructures<\/a><\/span><\/em>, Phys. Rev. Fluids<\/strong> 5, 083904 (2020)<\/a>.<\/p>\n\n\n\n 21. M. Hu#<\/sup>, F. Wang#<\/sup>, Q. Tao, L. Chen, S. M. Rubinstein, D. S. Deng*<\/strong>, Frozen patterns of impacted droplets: From conical tips to toroidal shapes<\/a><\/em><\/span>, Phys. Rev. Fluids<\/strong> 5, 081601(R) (2020)<\/a>.<\/p>\n\n\n\n 20. B. R. Xu, S. Q. Ma, Y. Z. Xiang, J. Zhang, M. F. Zhu, L. Wei*, G. M. Tao*, D. S. Deng<\/strong>*, In\u2011fiber structured particles and filament arrays from the perspective of fluid instabilities<\/a><\/em><\/span>, Adv. Fiber. Mat<\/strong> 2, 1 (2020).<\/a> (Invited review and cover article).<\/p>\n\n\n\n 19. M. Hu#<\/sup>, F. Wang#<\/sup>, P. Huo, X. Q. Pan, S. G. Johnson, Y. Fink, D. S. Deng<\/strong>*, Nanoparticle-mediated cavitation via CO2 laser impacting on water: concentration effect, temperature visualization, and core-shell structures<\/a><\/em><\/span>, Sci. Rep<\/strong> 9, 18326 (2019)<\/a>.<\/p>\n\n\n\n 18. Z. B. Gu, B. R. Xu, P. Huo, S. M. Rubinstein, M. Z. Bazant, D. S. Deng<\/strong>*, Deio<\/a><\/em>nization<\/a><\/em> shock driven by electroconvection in a circular channel<\/a><\/em><\/span>, Phys. Rev. Fluids<\/strong> 4, 113701 (2019)<\/a>.<\/p>\n\n\n\n 17. Y. Y. Liu, C. Y. Zhu, Y. Zhao, X. Qing, F. Wang, D. S. Deng<\/strong>, J. Wei, Y. L. Yu*, Directed pinning of moving water droplets on photoresponsive liquid crystal mats<\/em><\/a><\/span>, Adv. Mater. Interfaces<\/strong>, 1901158 (2019)<\/a>.<\/p>\n\n\n\n 16. B. R. Xu, M. H. Li, F. Wang, S. G. Johnson, Y. Fink, D. S. Deng*<\/strong>, Filament formation via the instability of a stretching viscous sheet: Physical mechanism, linear theory, and fiber applications. <\/em><\/a>Phys. <\/strong>Rev. Fluids<\/strong> 4, 073902 (2019)<\/a>.<\/span><\/span><\/p>\n\n\n\n 15. D. S. Deng<\/strong>, W. Aouad, W. Braff, S. Schlumpberger, M. Suss, M. Bazant, Water purification by shock electrodialysis: deionization, filtration, separation, and disinfection<\/a><\/em><\/span>. Desalination<\/strong> 357, 77 (2015)<\/a>. 14. D. S. Deng<\/strong>, E. V. Dydek, S. Schlumpberger, J. H. Han, A. Mani, B. Zaltzman, and M. Z. Bazant, Over-limiting current and shock electrodialysis in porous media<\/a><\/em><\/span>. Langmuir<\/strong> 29, 16167 (2013)<\/a>.<\/p>\n\n\n\n 13. J. Kaufman, G. M. Tao, S. Shabahang, E. Banaei, D. S. Deng<\/strong>, X. D. Liang, S. G. Johnson, Y. Fink and A. F. Abouraddy, Structured spheres generated by an in-fiber fluid instability<\/a><\/span><\/em>. Nature<\/strong> 487, 463 (2012)<\/a>. 12. E. V. Dydek, B. Zaltzman, I. Rubinstein, D. S. Deng<\/strong>, A. Mani, and M. Z. Bazant, Overlimiting current in a microchannel<\/a><\/span><\/em>. Phys. Rev. Lett.<\/strong> 107, 118301 (2011)<\/a>.<\/p>\n\n\n\n 11. J. Kaufman, G. M. Tao, S. Shabahang, D. S. Deng<\/strong>, Y. Fink, and A. F. Abouraddy, Thermal drawing of high-density macroscopic arrays of well-ordered sub-5-nm-diameternanowires<\/a><\/span>. Nano. Lett.<\/strong> 11, 4768, (2011)<\/a>.<\/p>\n\n\n\n 10. S. Shabahang, J. Kaufman, D. S. Deng<\/strong>, and A. F. Abouraddy, Observation of the Plateau-Rayleigh capillary instability in multi-material optical fibers<\/a><\/span><\/em>. Appl. Phys. Lett.<\/strong> 99, 161909, (2011)<\/a>. 9. X. Liang, D. S. Deng<\/strong>, J. C. Nave and S. G. Johnson, Linear stability analysis of capillary instabilities in concentrical shells<\/a><\/em><\/span>. J. Fluid. Mech.<\/strong> 683, 235, (2011)<\/a>.<\/p>\n\n\n\n 8. D. S. Deng<\/strong>, X. Liang, J. C. Nave, S. G. Johnson, and Y. Fink, Exploration of in-fiber nanostructures from capillary instability<\/a><\/em><\/span>.
\nMIT Tech review: New Desalination Technique Also Cleans and Disinfects Water<\/a><\/span>;
\nfeatured at physics today<\/a><\/span>, processingmagazine<\/a><\/span>, wateronline<\/a><\/span>, rwlwater<\/a><\/span>, among many others.<\/p>\n\n\n\n
\nHighlight<\/em><\/strong> News & Views, \u201cMaterials science: The abilities of instabilities.\u201d Nature<\/strong> 487, 440 (2012).
\nMIT news: D. L. Chandler, Dripping faucets inspire new way of creating structured particles<\/a><\/span>;
\nfeatured at PhysOrg<\/a><\/span>, nanowerk.com<\/a><\/span>, among many others.
\nUCF Today: B. Abney, UCF nanoparticle discovery opens door for pharmaceuticals<\/a><\/span>;
\nfeatured at ScienceDaily<\/a><\/span>, R&D magazine<\/a><\/span>, sciencenewsline.com<\/a><\/span>, bio-medicine.org<\/a><\/span>, among many others.
\nSpektrum.de (German edition of Scientific American): M. Pollmann, Materialwissenschaft: Wasserhahn effekt produziert vielseitige Nanopartikel<\/a><\/span>.<\/p>\n\n\n\n
\nInvited paper in Nov 7, 2011, issue of the Virtual Journal of Nanoscale Science & Technology.<\/p>\n\n\n\n