Publications

2020

1. Ko, J. ; Wang, Y. ; Carlson, J. C. T. ; Marquard, A. ; Gungabeesoon, J. ; Charest, A. ; Weitz, D. A. ; Pittet, M. J. ; Weissleder, R. “Single Extracellular Vesicle Protein Analysis Using Immuno-Digital Droplet Polymerase Chain Reaction Amplification“. Advanced Biosystems 2020, 4 1900307. Single Extracellular Vesicle Protein Analysis Using Immuno-Digital Droplet Polymerase Chain Reaction AmplificationPublisher’s Version Single Extracellular Vesicle Protein Analysis Using Immuno-Digital Droplet Polymerase Chain Reaction AmplificationPDF
2. Ding, R. ; Hung, K. – C. ; Mitra, A. ; Ung, L. W. ; Lightwood, D. ; Tu, R. ; Starkie, D. ; Cai, L. ; Mazutis, L. ; Chong, S. ; et al. “Rapid isolation of antigen-specific B-cells using droplet microfluidics“. RSC Advances 2020, 10, 27006-27013. Rapid isolation of antigen-specific B-cells using droplet microfluidicsPublisher’s Version Rapid isolation of antigen-specific B-cells using droplet microfluidicsPDF
3. Jeong, H. – S. ; Kim, E. ; Nam, C. ; Choi, Y. ; Lee, Y. – J. ; Weitz, D. A. ; Lee, H. ; Choi, C. – H. “Hydrogel Microcapsules with a Thin Oil Layer: Smart Triggered Release via Diverse Stimuli“. Advanced Functional Materials 2020, 31, 2009553. Hydrogel Microcapsules with a Thin Oil Layer: Smart Triggered Release via Diverse StimuliPublisher’s Version Hydrogel Microcapsules with a Thin Oil Layer: Smart Triggered Release via Diverse StimuliPDF
4. Sabbagh, B. ; Stolovicki, E. ; Park, S. ; Weitz, D. A. ; Yossifon, G. “Tunable Nanochannels Connected in Series for Dynamic Control of Multiple Concentration-Polarization Layers and Preconcentrated Molecule Plugs“. Nano Letters 2020, 20, 8524-8533. Tunable Nanochannels Connected in Series for Dynamic Control of Multiple Concentration-Polarization Layers and Preconcentrated Molecule PlugsPublisher’s Version Tunable Nanochannels Connected in Series for Dynamic Control of Multiple Concentration-Polarization Layers and Preconcentrated Molecule PlugsPDF
5. Wu, Z. ; Werner, J. G. ; Weitz, D. A. “Microfluidic fabrication of Phase-Inverted Microcapsules with Asymmetric Shell Membranes with Graded Porosity“. ACS Macro Letters 2020, 10, 116-121. Microfluidic fabrication of Phase-Inverted Microcapsules with Asymmetric Shell Membranes with Graded PorosityPublisher’s Version Microfluidic fabrication of Phase-Inverted Microcapsules with Asymmetric Shell Membranes with Graded PorosityPDF
6. Hwang, H. ; Weitz, D. A. ; Spaepen, F. “Stiffness of the interface between a colloidal body-centered cubic crystal and its liquid“. PNAS 2020, 117, 25225-25229. Stiffness of the interface between a colloidal body-centered cubic crystal and its liquidPublisher’s Version Stiffness of the interface between a colloidal body-centered cubic crystal and its liquidPDF
7. Brenner, M. ; Sorensen, P. ; Weitz, D. “Science and Cooking: Physics Meets Food, From Homemade to Haute Cuisine“; 1st ed. W.W. Norton, 2020; pp. 320. Science and Cooking: Physics Meets Food, From Homemade to Haute CuisinePublisher’s Version
8. Sun, Z. ; Wu, B. ; Ren, Y. ; Wang, Z. ; Zhao, C. ‐X. ; Hai, M. ; Weitz, D. A. ; Chen, D. “Diverse Particle Carriers Prepared by Co-Precipitation and Phase Separation: Formation and Applications“. ChemPlusChem 2020, 86, 49-58. Diverse Particle Carriers Prepared by Co-Precipitation and Phase Separation: Formation and ApplicationsPublisher’s Version Diverse Particle Carriers Prepared by Co-Precipitation and Phase Separation: Formation and ApplicationsPDF
9. Liu, Y. ; Yang, G. ; Jin, S. ; Zhang, R. ; Chen, P. ; Tengjisi, ; Wang, L. ; Chen, D. ; Weitz, D. A. ; Zhao, C. ‐X. “J-Aggregate-Based FRET Monitoring of Drug Release from Polymer Nanoparticles with High Drug Loading“. Angewandte Chemie 2020, 59, 20065-20074. J-Aggregate-Based FRET Monitoring of Drug Release from Polymer Nanoparticles with High Drug LoadingPublisher’s Version J-Aggregate-Based FRET Monitoring of Drug Release from Polymer Nanoparticles with High Drug LoadingPDF
10. Lin, S. ‐Z. ; Chen, P. ‐C. ; Guan, L. ‐Y. ; Shao, Y. ; Hao, Y. – K. ; Li, Q. ; Li, B. ; Weitz, D. A. ; Feng, X. ‐Q. “Universal Statistical Laws for the Velocities of Collective Migrating Cells“. Advanced Biosystems 2020, 4 2000065. Universal Statistical Laws for the Velocities of Collective Migrating CellsPublisher’s Version Universal Statistical Laws for the Velocities of Collective Migrating CellsPDF
11. Gerber, G. ; Weitz, D. A. ; Coussot, P. “Propagation and adsorption of nanoparticles in porous medium as traveling waves“. Physical Review Research 2020, 2 033074. Propagation and adsorption of nanoparticles in porous medium as traveling wavesPublisher’s Version Propagation and adsorption of nanoparticles in porous medium as traveling wavesPDF
12. Zhang, L. ; Abbaspourrad, A. ; Parsa, S. ; Tang, J. ; Cassiola, F. ; Zhang, M. ; Tian, S. ; Dai, C. ; Xiao, L. ; Weitz, D. A. “Core-Shell Nanohydrogels with Programmable Swelling for Conformance Control in Porous Media“. ACS Applied Materials & Interfaces 2020, 12, 34217-34225. Core-Shell Nanohydrogels with Programmable Swelling for Conformance Control in Porous MediaPublisher’s Version Core-Shell Nanohydrogels with Programmable Swelling for Conformance Control in Porous MediaPDF
13. Wang, Y. ; Cao, T. ; Ko, J. ; Shen, Y. ; Zong, W. ; Sheng, K. ; Cao, W. ; Sun, S. ; Cai, L. ; Zhou, Y. ‐L. ; et al. “Dissolvable Polyacrylamide Beads for High-Throughput Droplet DNA Barcoding“. Advanced Science 2020, 7 1903463. Dissolvable Polyacrylamide Beads for High-Throughput Droplet DNA BarcodingPublisher’s Version Dissolvable Polyacrylamide Beads for High-Throughput Droplet DNA BarcodingPDF
14. Liu, Y. ; Yang, G. ; Baby, T. ; Tengjisi, ; Chen, D. ; Weitz, D. A. ; Zhao, C. ‐X. “Stable Polymer Nanoparticles with Exceptionally High Drug Loading by Sequential Nanoprecipitation“. Angewandte Chemie 2020, 59, 4720-4728. Stable Polymer Nanoparticles with Exceptionally High Drug Loading by Sequential NanoprecipitationPublisher’s Version Stable Polymer Nanoparticles with Exceptionally High Drug Loading by Sequential NanoprecipitationPDF
15. Kong, T. ; Shum, H. C. ; Weitz, D. A. “The Fourth Decade of Microfluidics“. Small 2020, 16, 2000070. The Fourth Decade of MicrofluidicsPublisher’s Version The Fourth Decade of MicrofluidicsPDF
16. Zhu, Z. ; Liu, J. – D. ; Liu, C. ; Wu, X. ; Li, Q. ; Chen, S. ; Zhao, X. ; Weitz, D. A. “Microfluidics-Assisted Assembly of Injectable Photonic Hydrogels Toward Reflective Cooling“. Small 2020, 16, 1903939. Microfluidics-Assisted Assembly of Injectable Photonic Hydrogels Toward Reflective CoolingPublisher’s Version Microfluidics-Assisted Assembly of Injectable Photonic Hydrogels Toward Reflective CoolingPDF
17. Parsa, S. ; Santanach-Carreras, E. ; Xiao, L. ; Weitz, D. A. “Origin of anomalous polymer-induced fluid displacement in porous media“. Physical Review Fluids 2020, 5 022001. Origin of anomalous polymer-induced fluid displacement in porous mediaPublisher’s Version Origin of anomalous polymer-induced fluid displacement in porous mediaPDF
18. Wheeler, M. A. ; Clark, I. C. ; Tjon, E. C. ; Li, Z. ; Zandee, S. E. J. ; Couturier, C. P. ; Watson, B. R. ; Scalisi, G. ; Alkwai, S. ; Rothhammer, V. ; et al. “MAFG-driven astrocytes promote CNS inflammation“. Nature 2020, 2020, 593–599. MAFG-driven astrocytes promote CNS inflammationPublisher’s Version MAFG-driven astrocytes promote CNS inflammationPDF
19. Mutafopulos, K. ; Lu, P. J. ; Garry, R. ; Spink, P. ; Weitz, D. A. “Selective cell encapsulation, lysis, pico-injection and size-controlled droplet generation using traveling surface acoustic waves in a microfluidic device“. Lab on a Chip 2020, 20, 3914–3921. Selective cell encapsulation, lysis, pico-injection and size-controlled droplet generation using traveling surface acoustic waves in a microfluidic devicePublisher’s Version Selective cell encapsulation, lysis, pico-injection and size-controlled droplet generation using traveling surface acoustic waves in a microfluidic devicePDF
20. Prodanović, R. ; Ung, W. L. ; Đurđić, K. I. ; Fisher, R. ; Weitz, D. A. ; Ostafe, R. “A High-Throughput Screening System Based on Droplet Microfluidics for Glucose Oxidase Gene Libraries“. molecules 2020, 25, 2418. A High-Throughput Screening System Based on Droplet Microfluidics for Glucose Oxidase Gene LibrariesPublisher’s Version A High-Throughput Screening System Based on Droplet Microfluidics for Glucose Oxidase Gene LibrariesPDF
21. Haney, B. ; Werner, J. G. ; Weitz, D. A. ; Ramakrishnan, S. “Stimuli responsive Janus microgels with convertible hydrophilicity for controlled emulsion destabilization“. Soft Matter 2020, 16, 3613-3620. Stimuli responsive Janus microgels with convertible hydrophilicity for controlled emulsion destabilizationPublisher’s Version Stimuli responsive Janus microgels with convertible hydrophilicity for controlled emulsion destabilizationPDF
22. Yuan, Y. ; Brouchon, J. ; Calvo-Calle, J. M. ; Xia, J. ; Sun, L. ; Zhang, X. ; Clayton, K. L. ; Ye, F. ; Weitz, D. A. ; Heyman, J. “Droplet encapsulation improves accuracy of immune cell cytokine capture assays“. Lab on a Chip 2020, 20, 1513-1520. Droplet encapsulation improves accuracy of immune cell cytokine capture assaysPublisher’s Version Droplet encapsulation improves accuracy of immune cell cytokine capture assaysPDF
23. Liu, J. ; Chen, H. ; Shi, X. ; Nawar, S. ; Werner, J. ; Huang, G. S. ; Ye, M. ; Weitz, D. A. ; Solovev, A. A. ; Mei, Y. F. “Hydrogel microcapsules with photocatalytic nanoparticles for removal of organic pollutants“. Environmental Science Nano 2020, 7, 656-664. Hydrogel microcapsules with photocatalytic nanoparticles for removal of organic pollutantsPublisher’s Version Hydrogel microcapsules with photocatalytic nanoparticles for removal of organic pollutantsPDF
24. Sun, Z. ; Yang, C. ; Eggersdorfer, M. ; Cui, J. ; Li, Y. ; Hai, M. ; Chen, D. ; Weitz, D. A. “A General Strategy for One-Step Fabrication of Biocompatible Microcapsules with Controlled Active Release“. Chinese Chemical Letters 2020, 31, 249-252. A General Strategy for One-Step Fabrication of Biocompatible Microcapsules with Controlled Active ReleasePublisher’s Version A General Strategy for One-Step Fabrication of Biocompatible Microcapsules with Controlled Active ReleasePDF
25. Haney, B. ; Werner, J. G. ; Weitz, D. A. ; Ramakrishnan, S. “Absorbent-Adsorbates: Large Amphiphilic Janus Microgels as Droplet Stabilizers“. ACS Applied Materials & Interfaces 2020, 12, 33439-33446. Absorbent-Adsorbates: Large Amphiphilic Janus Microgels as Droplet StabilizersPublisher’s Version Absorbent-Adsorbates: Large Amphiphilic Janus Microgels as Droplet StabilizersPDF
26. Cohen, L. ; Cui, N. ; Cai, Y. ; Garden, P. M. ; Li, X. ; Weitz, D. A. ; Walt, D. R. “Single Molecule Protein Detection with Attomolar Sensitivity Using Droplet Digital Enzyme-Linked Immunosorbent Assay“. ACS Nano 2020, 14, 9491-9501. Single Molecule Protein Detection with Attomolar Sensitivity Using Droplet Digital Enzyme-Linked Immunosorbent AssayPublisher’s Version Single Molecule Protein Detection with Attomolar Sensitivity Using Droplet Digital Enzyme-Linked Immunosorbent AssayPDF
27. Wu, B. ; Yang, C. ; Li, B. ; Feng, L. ; Hai, M. ; Zhao, C. – X. ; Chen, D. ; Liu, K. ; Weitz, D. A. “Active Encapsulation in Biocompatible Nanocapsules“. Small 2020, 16, 2002716. Active Encapsulation in Biocompatible NanocapsulesPublisher’s Version Active Encapsulation in Biocompatible NanocapsulesPDF
28. Wu, H. ; Shen, Y. ; Wang, D. ; Herrmann, H. ; Goldman, R. D. ; Weitz, D. A. “Effect of divalent cations on the structure and mechanics of vimentin intermediate filaments“. Biophysical Journal 2020, 119, 55-64. Effect of divalent cations on the structure and mechanics of vimentin intermediate filamentsPublisher’s Version Effect of divalent cations on the structure and mechanics of vimentin intermediate filamentsPDF
29. Zhang, W. ; Zhao, X. ; Yuan, Y. ; Miao, F. ; Li, W. ; Ji, S. ; Huang, X. ; Chen, X. ; Jiang, T. ; Weitz, D. A. ; et al. “Microfluidic Synthesis of Multimode Au@CoFeB-Rg3 Nanomedicines and Their Cytotoxicity and Anti-Tumor Effects“. Chemistry Materials 2020, 32, 5044-5056. Microfluidic Synthesis of Multimode Au@CoFeB-Rg3 Nanomedicines and Their Cytotoxicity and Anti-Tumor EffectsPublisher’s Version Microfluidic Synthesis of Multimode Au@CoFeB-Rg3 Nanomedicines and Their Cytotoxicity and Anti-Tumor EffectsPDF
30. Xia, J. ; Yuan, Y. ; Wu, H. ; Huang, Y. ; Weitz, D. A. “Decoupling the effects of nanopore size and surface roughness on the attachment, spreading and differentiation of bone marrow-derived stem cells“. Biomaterials 2020, 248, 120014. Decoupling the effects of nanopore size and surface roughness on the attachment, spreading and differentiation of bone marrow-derived stem cellsPublisher’s Version Decoupling the effects of nanopore size and surface roughness on the attachment, spreading and differentiation of bone marrow-derived stem cellsPDF
31. Adams, L. L. A. ; Lee, D. ; Mei, Y. F. ; Weitz, D. A. ; Solovev, A. A. “Nanoparticle‐Shelled Catalytic Bubble Micromotor“. Advanced Materials Interfaces 2020, 7 1901583. Nanoparticle‐Shelled Catalytic Bubble MicromotorPublisher’s Version Nanoparticle‐Shelled Catalytic Bubble MicromotorPDF
32. Tiribocchi, A. ; Montessori, A. ; Aime, S. ; Milani, M. ; Lauricella, M. ; Succi, S. ; Weitz, D. “Novel nonequilibrium steady states in multiple emulsions“. Physics of Fluids 2020, 32, 017102. Novel nonequilibrium steady states in multiple emulsionsPublisher’s Version Novel nonequilibrium steady states in multiple emulsionsPDF
33. Nawar, S. ; Stolaroff, J. K. ; Ye, C. ; Wu, H. ; Nguyen, D. T. ; Xin, F. ; Weitz, D. A. “Parallelizable microfluidic dropmakers with multilayer geometry for the generation of double emulsions“. Lab on a Chip 2020, 20, 147–154. Parallelizable microfluidic dropmakers with multilayer geometry for the generation of double emulsionsPublisher’s Version Parallelizable microfluidic dropmakers with multilayer geometry for the generation of double emulsionsPDF
34. Shi, W. ; Chen, X. ; Li, B. ; Weitz, D. A. “Spontaneous Creation of Anisotropic Polymer Crystals with Orientation-Sensitive Birefringence in Liquid Drops“. ACS Applied Materials & Interfaces 2020, 12, 3912-3918. Spontaneous Creation of Anisotropic Polymer Crystals with Orientation-Sensitive Birefringence in Liquid DropsPublisher’s Version Spontaneous Creation of Anisotropic Polymer Crystals with Orientation-Sensitive Birefringence in Liquid DropsPDF
35. Cao, T. ; Wang, Y. ; Tao, Y. ; Zhang, L. ; Zhou, Y. – L. ; Zhang, X. – X. ; Heyman, J. A. ; Weitz, D. A. “DNAzyme-powered nucleic acid release from solid supports“. Chemical Communications 2020, 56, 647–650. DNAzyme-powered nucleic acid release from solid supportsPublisher’s Version DNAzyme-powered nucleic acid release from solid supportsPDF