Bioassays and Applications

2009
Q. Xu, M. Hashimoto, T. T. Dang, T. Hoare, D. S. Kohane, G. M. Whitesides, R. Langer, and D. G. Anderson. 2009. “Preparation of Monodisperse Biodegradable Polymer Microparticles Using a Microfluidic Flow-Focusing Device Controlled Drug-Delivery.” Small, 5, Pp. 1575-1581. PDF
1053
A. K. Ellerbee, S. T. Phillips, A. C. Siegel, K. A. Mirica, A. W. Martinez, P. Striehl, N. Jain, M. G. Prentiss, and G. M. Whitesides. 2009. “Quantifying Colorimetric Assays in Paper-Based Microfluidic Devices by Measuring the Transmission of Light through Paper.” Anal. Chem., 81, Pp. 8447-8452. PDF Supplemental
1065
D. B. Wolfe, D. Qin, and G. M. Whitesides. 2009. “Rapid Prototyping of Microstructures by Soft Lithography for Biotechnology.” In Microengineering in Biotechnology, edited by M. P. Hughes and K. F. Hoettges, Pp. 81-107. New York, NY: Humana Press. PDF
1067
2008
A. W. Martinez, S. T. Phillips, E. Carrilho, S. W. Thomas, H. Sindi, and G. M. Whitesides. 2008. “Simple Telemedicine for Developing Regions: Camera Phones and Paper-Based Microfluidic Devices for Real-Time, Off-Site Diagnosis.” Analytical Chemistry, 80, Pp. 3699-3707. 1018.pdf
1018
2007
S. E. Hulme, S. S. Shevkoplyas, J. Apfeld, W. Fontana, and G. M. Whitesides. 2007. “A Microfabricated Array of Clamps for Immobilizing and Imaging C. elegans.” LOC, 7, Pp. 1515-1523. 1000.pdf
1000
D. B. Weibel, W. R. DiLuzio, and G. M. Whitesides. 2007. “Microfabrication Meets Microbiology.” Nature Reviews Microbiology, 5, Pp. 209-218. 982.pdf
982
2006
D. B. Weibel and G. M. Whitesides. 2006. “Applications of Microfluidics in Chemical Biology.” Current Opinion in Chemical Biology, 10, Pp. 584-591. 966.pdf
966
N. Xia, T. P. Hunt, B. T. Mayers, E. Alsberg, G. M. Whitesides, R. M. Westervelt, and D. E. Ingber. 2006. “Combined Microfluidic-Micromagnetic Separation of Living Cells in Continuous Flow.” Biomed. Microdevices, 8, Pp. 299-308. 974.pdf
974
G. M. Whitesides. 2006. “The Origins and the Future of Microfluidics.” Nature, 442, Pp. 368-373. 960.pdf
960
2005
B. T. Mayers, D. V. Vezenov, V. Vullev, and G. M. Whitesides. 2005. “Arrays and Cascades of Fluorescent Liquid-Liquid Waveguides: Broadband Light Sources for Spectroscopy in Microchannels.” Analytical Chemistry, 77, Pp. 1310-1316. PDF
903
D. B. Weibel, P. Garstecki, and G. M. Whitesides. 2005. “Combining Microscience and Neurobiology.” Current Opinion In Neurobiology, 15, Pp. 1-8. PDF
926
S. Takeuchi, W. R. DiLuzio, D. B. Weibel, and G. M. Whitesides. 2005. “Controlling the Shape of Filamentous Cells of Escherichia Coli.” Nano Letters, 5, Pp. 1819-1823. PDF
925
P. Garstecki, M. A. Fischbach, and G. M. Whitesides. 2005. “A Design for Mixing Using Bubbles in Branched Microfluidic Channels.” Applied Physics Letters, 86, Pp. 244108-1 - 244108-3. PDF
914
W. R. DiLuzio, L. Turner, M. Mayer, P. Garstecki, D. B. Weibel, H. C. Berg, and G. M. Whitesides. 2005. “Escherichia coli Swim on the Right-Hand Side.” Nature, 435, Pp. 1271-1274. PDF
919
X. Jiang, Q. Xu, S. K. W. Dertinger, A. D. Stroock, T. Fu, and G. M. Whitesides. 2005. “A General Method for Patterning Gradients of Biomolecules on Surfaces Using Microfluidic Networks.” Analytical Chemistry, 77, Pp. 2338-2347. PDF
916
D. V. Vezenov, B. T. Mayers, D. B. Wolfe, and G. M. Whitesides. 2005. “Integrated Fluorescent Light Source for Optofluidic Applications.” Applied Physics Letters, 86, Pp. 041104-1 - 041104-3. PDF
905
C. S. Chen, X. Jiang, and G. M. Whitesides. 2005. “Microengineering the Environment of Mammalian Cells in Culture.” MRS Bulletin, 30, Pp. 194-201. PDF
904
D. B. Weibel, P. Garstecki, D. Ryan, W. R. DiLuzio, M. Mayer, J. E. Seto, and G. M. Whitesides. 2005. “Microoxen: Microorganisms to Move Microscale Loads.” PNAS, 102, Pp. 11963-11967. PDF
922
P. Garstecki, M. J. Fuerstman, and G. M. Whitesides. 2005. “Non-Linear Dynamics of a Flow-Focusing Bubble Generator: An Inverted Dripping Faucet.” Physical Review Letters, 94, Pp. 234502-1 - 234502-4. PDF
915
V. Linder, S. K. Sia, and G. M. Whitesides. 2005. “Reagent-Loaded Cartridges for Valveless and Automated Fluid Delivery in Microfluidic Devices.” Analytical Chemistry, 77, Pp. 64-71. PDF
938

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