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Invited Talk: Order and Chaos: Collective Behavior of Crowded Drops in Microfluidic Systems

INVITED · K02 · ID: 22986

Presentations

  • Order and Chaos: Collective Behavior of Crowded Drops in Microfluidic Systems

    ORAL · Invited

    Publication: 1. Alison D. Bick, Jian Wei Khor, Ya Gai, and Sindy K. Y. Tang*, "Strategic placement of an obstacle suppresses droplet break-up in the hopper flow of a microfluidic soft crystal", Proceedings of the National Academy of Sciences, 118, e2017822118, 2021.<br>2. Simon Schutz, Jian Wei Khor, Sindy K.Y. Tang, and Tobias Schneider, "Interaction and breakup of droplet pairs in a microchannel Y-junction", Physical Review Fluids, 5, 083605, 2020.<br>3. Alison Bick, and Sindy K. Y. Tang*, "Effect of Volume Fraction on Droplet Break-up in an Emulsion flowing through a Microfluidic Constriction", Applied Physics Letters, 115, 093702, 2019.<br>4. Ya Gai, Alison Bick, and Sindy K.Y. Tang*, "Timescale and spatial distribution of local plastic events in a two-dimensional microfluidic crystal", Physical Review Fluids, 4, 014201, 2019.<br>5. Jian Wei Khor, Neal Jean, Eric S. Luxenberg, Stefano Ermon, and Sindy K.Y. Tang*, "Using Machine Learning to Discover Shape Descriptors for Predicting Emulsion Stability", Soft Matter, 15, 1361-1372, 2019.<br>6. Chia M. Leong, Ya Gai, and Sindy K.Y. Tang*, "Internal flow inside droplets within a concentrated emulsion during droplet rearrangement", Physics of Fluids, 30, 032002, 2018. <br>7. Jian Wei Khor, Minkyu Kim, Simon Schutz, Tobias Schneider, and Sindy K.Y. Tang*, "Time-varying droplet configuration determines break-up probability of drops within a concentrated emulsion", Applied Physics Letters, 111, 124102, 2017. <br>8. Ya Gai†, Minkyu Kim†, Ming Pan, and Sindy K.Y. Tang*, "Amphiphilic nanoparticles suppress droplet break-up in a concentrated emulsion flowing through a narrow constriction", Biomicrofluidics, 11, 034117, 2017. <br>9. Chia Leong, Ya Gai, and Sindy K.Y. Tang*, "Internal flow in droplets within a concentrated emulsion flowing in a microchannel", Physics of Fluids, 28, 112001, 2016. <br>10. Ya Gai, Chia Leong, Wei Cai, and Sindy K. Y. Tang*, "Spatiotemporal periodicity of dislocation dynamics in a two-dimensional microfluidic crystal flowing in a tapered channel", Proceedings of the National Academy of Sciences, 113, 12082-12087, 2016 <br>11. Ya Gai, Jian Wei Khor, and Sindy K. Y. Tang*, "Confinement and viscosity ratio effect on droplet break-up in a concentrated emulsion flowing through a narrow constriction", Lab on a Chip, 16, 3058 - 3064, 2016. <br>12. Minkyu Kim, Ming Pan, Ya Gai, Shuo Pang, Chao Han, Changhuei Yang, and Sindy K.Y. Tang*, "Optofluidic ultrahigh-throughput detection of fluorescent drops", Lab on a Chip, 15, 1417-1423, 2015.<br>13. Liat Rosenfeld, Tiras Lin, Ratmir Derda, and Sindy K.Y. Tang, "Review and Analysis of Performance Metrics of Droplet Microfluidics Systems," Microfluidics and Nanofluidics, 16, 5, 921-939, 2014.<br>14. Liat Rosenfeld, Lin Fan, Yunhan Chen, Ryan Swoboda, and Sindy K.Y. Tang, "Break-up of Droplets in a Concentrated Emulsion Flowing through a Narrow Constriction," Soft Matter, 10, 421-430, 2014.<br>

    Presenters

    • Sindy Tang

      Stanford University

    Authors

    • Sindy Tang

      Stanford University

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