Publications

2013

1. Guo, M.; Ehrlicher, A. J.; Mahammad, S.; Fabich, H.; Jensen, M. H.; Moore, J. R.; Fredberg, J. J.; Goldman, R. D.; Weitz, D. A. The role of vimentin intermediate filaments in cortical and cytoplasmic mechanics. Biophysical journal 2013, 105, 1562-1568. The role of vimentin intermediate filaments in cortical and cytoplasmic mechanicsPublisher’s Version The role of vimentin intermediate filaments in cortical and cytoplasmic mechanicsPDF
2. Windbergs, M.; Zhao, Y.; Heyman, J.; Weitz, D. A. Biodegradable core-shell carriers for simultaneous encapsulation of synergistic actives. Journal of the American Chemical Society 2013, 135, 7933-7937. Biodegradable core-shell carriers for simultaneous encapsulation of synergistic activesPublisher’s Version Biodegradable core-shell carriers for simultaneous encapsulation of synergistic activesPDF
3. van Steijn, V.; Korczyk, P. M.; Derzsi, L.; Abate, A. R.; Weitz, D. A.; Garstecki, P. Block-and-break generation of microdroplets with fixed volume. Biomicrofluidics 2013, 7 024108. Block-and-break generation of microdroplets with fixed volumePublisher’s Version Block-and-break generation of microdroplets with fixed volumePDF
4. Lu, P. J.; Weitz, D. A.; Langer, J. S. Colloidal particles: Crystals, glasses, and gels. In Annual Review of Condensed Matter Physics, Vol 4; 2013; Vol. 4, pp. 217-233. Colloidal particles: Crystals, glasses, and gelsPublisher’s Version Colloidal particles: Crystals, glasses, and gelsPDF
5. Abbaspourrad, A.; Datta, S. S.; Weitz, D. A. Controlling release from pH-responsive microcapsules. Langmuir 2013, 29, 12697-12702. Controlling release from pH-responsive microcapsulesPublisher’s Version Controlling release from pH-responsive microcapsulesPDF
6. Abate, A. R.; Hung, T.; Sperling, R. A.; Mary, P.; Rotem, A.; Agresti, J. J.; Weiner, M. A.; Weitz, D. A. DNA sequence analysis with droplet-based microfluidics. Lab on a Chip 2013, 13, 4864–4869. DNA sequence analysis with droplet-based microfluidicsPublisher’s Version DNA sequence analysis with droplet-based microfluidicsPDF
7. Datta, S. S.; Weitz, D. A. Drainage in a model stratified porous medium. Epl 2013, 101. Drainage in a model stratified porous mediumPublisher’s Version Drainage in a model stratified porous mediumPDF
8. Kim, S.-H.; Kim, J. W.; Kim, D.-H.; Han, S.-H.; Weitz, D. A. Enhanced-throughput production of polymersomes using a parallelized capillary microfluidic device. Microfluidics and Nanofluidics 2013, 14, 509–514. Enhanced-throughput production of polymersomes using a parallelized capillary microfluidic devicePublisher’s Version Enhanced-throughput production of polymersomes using a parallelized capillary microfluidic devicePDF
9. Rodriguez-Lopez, J.; Shum, H. C.; Elvira, L.; Montero de Espinosa, F.; Weitz, D. A. Fabrication and manipulation of polymeric magnetic particles with magnetorheological fluid. Journal of Magnetism and Magnetic Materials 2013, 326, 220–224. Fabrication and manipulation of polymeric magnetic particles with magnetorheological fluidPublisher’s Version Fabrication and manipulation of polymeric magnetic particles with magnetorheological fluidPDF
10. Lee, J. Y.; Hwang, J. W.; Jung, H. W.; Kim, S. H.; Lee, S. J.; Yoon, K.; Weitz, D. A. Fast dynamics and relaxation of colloidal drops during the drying process using multispeckle diffusing wave spectroscopy. Langmuir 2013, 29, 861–866. Fast dynamics and relaxation of colloidal drops during the drying process using multispeckle diffusing wave spectroscopyPublisher’s Version Fast dynamics and relaxation of colloidal drops during the drying process using multispeckle diffusing wave spectroscopyPDF
11. Kim, S.-H.; Nam, J.; Kim, J. W.; Kim, D.-H.; Han, S.-H.; Weitz, D. A. Formation of polymersomes with double bilayers templated by quadruple emulsions. Lab on a Chip 2013, 13, 1351–1356. Formation of polymersomes with double bilayers templated by quadruple emulsionsPublisher’s Version Formation of polymersomes with double bilayers templated by quadruple emulsionsPDF
12. Chen, H.; Li, J.; Wan, J.; Weitz, D. A.; Stone, H. A. Gas-core triple emulsions for ultrasound triggered release. Soft Matter 2013, 9, 38–42. Gas-core triple emulsions for ultrasound triggered releasePublisher’s Version Gas-core triple emulsions for ultrasound triggered releasePDF
13. Wang, W.; Zhang, M.-J.; Xie, R.; Ju, X.-J.; Yang, C.; Mou, C.-L.; Weitz, D. A.; Chu, L.-Y. Hole-shell microparticles from controllably evolved double emulsions. Angewandte Chemie-International Edition 2013, 52, 8084–8087. Hole-shell microparticles from controllably evolved double emulsionsPublisher’s Version Hole-shell microparticles from controllably evolved double emulsionsPDF
14. Wilking, J. N.; Zaburdaev, V.; De Volder, M.; Losick, R.; Brenner, M. P.; Weitz, D. A. Liquid transport facilitated by channels in Bacillus subtilis biofilms. Proceedings of the National Academy of Sciences of the United States of America 2013, 110, 848–852. Liquid transport facilitated by channels in Bacillus subtilis biofilmsPublisher’s Version Liquid transport facilitated by channels in Bacillus subtilis biofilmsPDF
15. Abbaspourrad, A.; Duncanson, W. J.; Lebedeva, N.; Kim, S.-H.; Zhushma, A. P.; Datta, S. S.; Dayton, P. A.; Sheiko, S. S.; Rubinstein, M.; Weitz, D. A. Microfluidic fabrication of stable gas-filled microcapsules for acoustic contrast enhancement. Langmuir 2013, 29, 12352–12357. Microfluidic fabrication of stable gas-filled microcapsules for acoustic contrast enhancementPublisher’s Version Microfluidic fabrication of stable gas-filled microcapsules for acoustic contrast enhancementPDF
16. Liu, D.; Herranz-Blanco, B.; Makila, E.; Arriaga, L. R.; Mirza, S.; Weitz, D. A.; Sandler, N.; Salonen, J.; Hirvonen, J.; Santos, H. A. Microfluidic templated mesoporous silicon-solid lipid microcomposites for sustained drug delivery. ACS Applied Materials & Interfaces 2013, 5, 12127–12134. Microfluidic templated mesoporous silicon-solid lipid microcomposites for sustained drug deliveryPublisher’s Version Microfluidic templated mesoporous silicon-solid lipid microcomposites for sustained drug deliveryPDF
17. Zidovska, A.; Weitz, D. A.; Mitchison, T. J. Micron-scale coherence in interphase chromatin dynamics. Proceedings of the National Academy of Sciences of the United States of America 2013, 110, 15555–15560. Micron-scale coherence in interphase chromatin dynamicsPublisher’s Version Micron-scale coherence in interphase chromatin dynamicsPDF
18. Koziej, D.; Floryan, C.; Sperling, R. A.; Ehrlicher, A. J.; Issadore, D.; Westervelt, R.; Weitz, D. A. Microwave dielectric heating of non-aqueous droplets in a microfluidic device for nanoparticle synthesis. Nanoscale 2013, 5, 5468–5475. Microwave dielectric heating of non-aqueous droplets in a microfluidic device for nanoparticle synthesisPublisher’s Version Microwave dielectric heating of non-aqueous droplets in a microfluidic device for nanoparticle synthesisPDF
19. Jensen, K. E.; Weitz, D. A.; Spaepen, F. Note: A three-dimensional calibration device for the confocal microscope. Review of Scientific Instruments 2013, 84, 016108. Note: A three-dimensional calibration device for the confocal microscopePublisher’s Version Note: A three-dimensional calibration device for the confocal microscopePDF
20. Rowat, A. C.; Jaalouk, D. E.; Zwerger, M.; Ung, W. L.; Eydelnant, I. A.; Olins, D. E.; Olins, A. L.; Herrmann, H.; Weitz, D. A.; Lammerding, J. Nuclear envelope composition determines the ability of neutrophil-type cells to passage through micron-scale constrictions. Journal of Biological Chemistry 2013, 288, 8610–8618. Nuclear envelope composition determines the ability of neutrophil-type cells to passage through micron-scale constrictionsPublisher’s Version Nuclear envelope composition determines the ability of neutrophil-type cells to passage through micron-scale constrictionsPDF
21. Choi, C.-H.; Weitz, D. A.; Lee, C.-S. One step formation of controllable complex emulsions: From functional particles to simultaneous encapsulation of hydrophilic and hydrophobic agents into desired position. Advanced Materials 2013, 25, 2536–2541. One step formation of controllable complex emulsions: From functional particles to simultaneous encapsulation of hydrophilic and hydrophobic agents into desired positionPublisher’s Version One step formation of controllable complex emulsions: From functional particles to simultaneous encapsulation of hydrophilic and hydrophobic agents into desired positionPDF
22. Abbaspourrad, A.; Carroll, N. J.; Kim, S.-H.; Weitz, D. A. Polymer microcapsules with programmable active release. Journal of the American Chemical Society 2013, 135, 7744–7750. Polymer microcapsules with programmable active releasePublisher’s Version Polymer microcapsules with programmable active releasePDF
23. Kim, S.-H.; Kim, J. W.; Kim, D.-H.; Han, S.-H.; Weitz, D. A. Polymersomes containing a hydrogel network for high stability and controlled release. Small 2013, 9, 124–131. Polymersomes containing a hydrogel network for high stability and controlled releasePublisher’s Version Polymersomes containing a hydrogel network for high stability and controlled releasePDF
24. Di Benedetto, F.; Fasano, V.; Persano, L.; Maruccio, C.; Mele, E.; Potente, G.; Weitz, D. A.; De Lorenzis, L.; Pisignano, D. Rolling particle lithography by soft polymer microparticles. Soft Matter 2013, 9, 2206–2211. Rolling particle lithography by soft polymer microparticlesPublisher’s Version Rolling particle lithography by soft polymer microparticlesPDF
25. Mazutis, L.; Gilbert, J.; Ung, W. L.; Weitz, D. A.; Griffiths, A. D.; Heyman, J. A. Single-cell analysis and sorting using droplet-based microfluidics. Nature Protocols 2013, 8, 870–891. Single-cell analysis and sorting using droplet-based microfluidicsPublisher’s Version Single-cell analysis and sorting using droplet-based microfluidicsPDF
26. Datta, S. S.; Chiang, H.; Ramakrishnan, T. S.; Weitz, D. A. Spatial fluctuations of fluid velocities in flow through a three-dimensional porous medium. Physical Review Letters 2013, 111, 064501. Spatial fluctuations of fluid velocities in flow through a three-dimensional porous mediumPublisher’s Version Spatial fluctuations of fluid velocities in flow through a three-dimensional porous mediumPDF
27. DiLauro, A. M.; Abbaspourrad, A.; Weitz, D. A.; Phillips, S. T. Stimuli-responsive core-shell microcapsules with tunable rates of release by using a depolymerizable poly(phthalaldehyde) membrane. Macromolecules 2013, 46, 3309–3313. Stimuli-responsive core-shell microcapsules with tunable rates of release by using a depolymerizable poly(phthalaldehyde) membranePublisher’s Version Stimuli-responsive core-shell microcapsules with tunable rates of release by using a depolymerizable poly(phthalaldehyde) membranePDF
28. Munster, S.; Jawerth, L. M.; Leslie, B. A.; Weitz, J. I.; Fabry, B.; Weitz, D. A. Strain history dependence of the nonlinear stress response of fibrin and collagen networks. Proceedings of the National Academy of Sciences of the United States of America 2013, 110, 12197–12202. Strain history dependence of the nonlinear stress response of fibrin and collagen networksPublisher’s Version Strain history dependence of the nonlinear stress response of fibrin and collagen networksPDF
29. Yao, N. Y.; Broedersz, C. P.; Depken, M.; Becker, D. J.; Pollak, M. R.; MacKintosh, F. C.; Weitz, D. A. Stress-enhanced gelation: A dynamic nonlinearity of elasticity. Physical Review Letters 2013, 110, 018103. Stress-enhanced gelation: A dynamic nonlinearity of elasticityPublisher’s Version Stress-enhanced gelation: A dynamic nonlinearity of elasticityPDF
30. Muenster, S.; Jawerth, L. M.; Fabry, B.; Weitz, D. A. Structure and mechanics of fibrin clots formed under mechanical perturbation. Journal of Thrombosis and Haemostasis 2013, 11, 557–560. Structure and mechanics of fibrin clots formed under mechanical perturbationPublisher’s Version Structure and mechanics of fibrin clots formed under mechanical perturbationPDF
31. Abbaspourrad, A.; Carroll, N. J.; Kim, S.-H.; Weitz, D. A. Surface functionalized hydrophobic porous particles toward water treatment application. Advanced Materials 2013, 25, 3215–3221. Surface functionalized hydrophobic porous particles toward water treatment applicationPublisher’s Version Surface functionalized hydrophobic porous particles toward water treatment applicationPDF
32. Zhou, S.; Fan, J.; Datta, S. S.; Guo, M.; Guo, X.; Weitz, D. A. Thermally switched release from nanoparticle colloidosomes. Advanced Functional Materials 2013, 23, 5925–5929. Thermally switched release from nanoparticle colloidosomesPublisher’s Version Thermally switched release from nanoparticle colloidosomesPDF
33. Lin, T.; Kodger, T. E.; Weitz, D. A. Transport of charged colloids in a nonpolar solvent. Soft Matter 2013, 9, 5173–5177. Transport of charged colloids in a nonpolar solventPublisher’s Version Transport of charged colloids in a nonpolar solventPDF
34. Krummel, A. T.; Datta, S. S.; Muenster, S.; Weitz, D. A. Visualizing multiphase flow and trapped fluid configurations in a model three-dimensional porous medium. Aiche Journal 2013, 59, 1022–1029. Visualizing multiphase flow and trapped fluid configurations in a model three-dimensional porous mediumPublisher’s Version Visualizing multiphase flow and trapped fluid configurations in a model three-dimensional porous mediumPDF
35. Deng, N.-N.; Wang, W.; Ju, X.-J.; Xie, R.; Weitz, D. A.; Chu, L.-Y. Wetting-induced formation of controllable monodisperse multiple emulsions in microfluidics. Lab on a Chip 2013, 13, 4047–4052. Wetting-induced formation of controllable monodisperse multiple emulsions in microfluidicsPublisher’s Version Wetting-induced formation of controllable monodisperse multiple emulsions in microfluidicsPDF
36. Fan, J. ; Li, Y. ; Bisoyi, H. K. ; Zola, R. S. ; Yang, Deng-ke, B. T. J. W. D. A. L. Q. “Light-Directing Omnidirectional Circularly Polarized Reflection from Liquid-Crystal Droplets,” Angewandte Chemie International Edition 2014, 54, 2160-2164. Light-Directing Omnidirectional Circularly Polarized Reflection from Liquid-Crystal DropletsPublisher’s Version Light-Directing Omnidirectional Circularly Polarized Reflection from Liquid-Crystal DropletsPDF