Devices

2006
P. Garstecki, M. J. Fuerstman, M. A. Fischbach, S. K. Sia, and G. M. Whitesides. 2006. “Mixing with Bubbles: A Practical Technology for use with Portable Microfluidic Devices.” Lab on a Chip, 6, Pp. 207-212. PDF
943
S. K. Y. Tang, B. T. Mayers, D. V. Vezenov, and G. M. Whitesides. 2006. “Optical Waveguiding using Thermal Gradients across Homogeneous Liquids in Microfluidic Channels.” Applied Physics Letters, 88, Pp. 061112-1 - 061112-3. PDF
953
G. M. Whitesides. 2006. “The Origins and the Future of Microfluidics.” Nature, 442, Pp. 368-373. 960.pdf
960
M. Lahav, M. Narovlyansky, A. Winkleman, R. Perez-Castillejos, E. Weiss, and G. M. Whitesides. 2006. “Patterning of Polyacrylic Acid by Ionic Exchange Reactions in Microfluidic Channels.” Advanced Materials, 18, Pp. 3174-3178. 973.pdf 973_01.pdf
973
2005
Q. Xu, B. T. Mayers, M. Lahav, D. V. Vezenov, and G. M. Whitesides. 2005. “Approaching Zero: Using Crystal Fracture as a Metric for Replica Molding.” J. Am. Chem. Soc., 127, Pp. 854-855. PDF
900
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
S. Takeuchi, P. Garstecki, D. B. Weibel, and G. M. Whitesides. 2005. “An Axisymmetric Flow-Focusing Microfluidic Device.” Advanced Materials, 17, Pp. 1067-1072. PDF
908
D. B. Weibel, P. Garstecki, and G. M. Whitesides. 2005. “Combining Microscience and Neurobiology.” Current Opinion In Neurobiology, 15, Pp. 1-8. PDF
926
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
D. B. Wolfe, R. S. Conroy, D. V. Vezenov, B. T. Mayers, M. G. Prentiss, and G. M. Whitesides. 2005. “Diffusion-Controlled Optical Elements for Optofluidics.” Applied Physics Letters, 87, Pp. 181105-1 - 181105-3. PDF
933
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
P. Garstecki, A. M. Gañán-Calvo, and G. M. Whitesides. 2005. “Formation of Bubbles and Droplets in Microfluidic Systems.” Bulletin of the Polish Academy of Sciences, 53, Pp. 361-372. PDF
942
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
S. Xu, Z. Nie, M. Seo, P. C. Lewis, E. Kumacheva, P. Garstecki, D. B. Weibel, I. Gitlin, and G. M. Whitesides. 2005. “Generation of Monodisperse Particles Using Microfluidics: Control Over Size, Shape and Composition.” Angewandte Chemie International Edition, 44, Pp. 724-728. PDF
940
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
D. V. Vezenov, B. T. Mayers, R. S. Conroy, G. M. Whitesides, P. Snee, Y. Chan, D. G. Nocera, and M. G. Bawendi. 2005. “A Low-Threshold, High-Efficiency Microfluidic Waveguide Laser.” J. Am. Chem. Soc., 127, Pp. 8952-8953. PDF
921
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
B.D. Gates, Q. Xu, M. Stewart, D. Ryan, C. G. Willson, and G. M. Whitesides. 2005. “New Approaches to Nanofabrication: Molding, Printing, and Other Techniques.” Chemical Reviews, 105, Pp. 1171-1196. PDF
910
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
R. S. Conroy, B. T. Mayers, D. V. Vezenov, D. B. Wolfe, M. G. Prentiss, and G. M. Whitesides. 2005. “Optical Waveguiding in Suspensions of Dielectric Particles.” Applied Physics Letters, 44, Pp. 7853-7857. PDF
937

Pages