PDMS
Bibliographic References tagged with PDMS
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D.J. Preston, H.J. Jiang, V. Sanchez, P. Rothemund, J. Rawson, M.P. Nemitz, W-K. Lee, Z. Suo, C. J. Walsh, and G. M. Whitesides. 2019. “A Soft Ring Oscillator”. Science Robotics, 4, 31, Pp. 1-9
D.J. Preston, H.J. Jiang, V. Sanchez, P. Rothemund, J. Rawson, M.P. Nemitz, W-K. Lee, Z. Suo, C. J. Walsh, and G. M. Whitesides. 2019. “A Soft Ring Oscillator”. Science Robotics, 4, 31, Pp. 1-9
D.J. Preston, P. Rothemund, H.J. Jiang, M.P. Nemitz, J. Rawson, Z. Suo, and G. M. Whitesides. 2019. “Digital Logic for Soft Devices”. PNAS, 116, 16, Pp. 7750-59
D.J. Preston, P. Rothemund, H.J. Jiang, M.P. Nemitz, J. Rawson, Z. Suo, and G. M. Whitesides. 2019. “Digital Logic for Soft Devices”. PNAS, 116, 16, Pp. 7750-59
D. A. Bruzewicz, M. Reches, and G. M. Whitesides. 2008. “Low-Cost Printing of PDMS Barriers to Define Microchannels in Paper”. Analytical Chemistry, 80, Pp. 3387-92
D. A. Bruzewicz, M. Reches, and G. M. Whitesides. 2008. “Low-Cost Printing of PDMS Barriers to Define Microchannels in Paper”. Analytical Chemistry, 80, Pp. 3387-92
E. J. Smythe, M. D. Dickey, G. M. Whitesides, and F. Capasso. 2009. “A Technique to Transfer Metallic Nanoscale Patterns to Small and Non-Planar Surfaces”. ACS Nano, 3, Pp. 59-65
E. J. Smythe, M. D. Dickey, G. M. Whitesides, and F. Capasso. 2009. “A Technique to Transfer Metallic Nanoscale Patterns to Small and Non-Planar Surfaces”. ACS Nano, 3, Pp. 59-65
J. Hu, R. G. Beck, R. M. Westervelt, and G. M. Whitesides. 1998. “The Use of Soft Lithography to Fabricate Arrays of Schottky Diodes”. Advanced Materials, 10, Pp. 574-77
J. Hu, R. G. Beck, R. M. Westervelt, and G. M. Whitesides. 1998. “The Use of Soft Lithography to Fabricate Arrays of Schottky Diodes”. Advanced Materials, 10, Pp. 574-77
T. K. Whidden, D. K. Ferry, M. N. Kozicki, E. Kim, A. Kumar, J.L. Wilbur, and G. M. Whitesides. 1996. “Pattern Transfer to Silicon by Microcontact Printing and RIE”. Nanotechnology, 7, Pp. 447-51
T. K. Whidden, D. K. Ferry, M. N. Kozicki, E. Kim, A. Kumar, J.L. Wilbur, and G. M. Whitesides. 1996. “Pattern Transfer to Silicon by Microcontact Printing and RIE”. Nanotechnology, 7, Pp. 447-51
S. T. Brittain, K. E. Paul, X-M. Zhao, and G. M. Whitesides. 1998. “Soft Lithography and Microfabrication”. Physics World, 11, Pp. 31-36
S. T. Brittain, K. E. Paul, X-M. Zhao, and G. M. Whitesides. 1998. “Soft Lithography and Microfabrication”. Physics World, 11, Pp. 31-36
E. Kim, G. M. Whitesides, M. B. Freiler, M. Levy, J. L. Lin, and R. M. Osgood. 1996. “Fabrication of Micrometer-Scale Structures on GaAs and GaAs AlGaAs Quantum Well Material Using Microcontact Printing”. Nanotechnology, 7, Pp. 266-69
E. Kim, G. M. Whitesides, M. B. Freiler, M. Levy, J. L. Lin, and R. M. Osgood. 1996. “Fabrication of Micrometer-Scale Structures on GaAs and GaAs AlGaAs Quantum Well Material Using Microcontact Printing”. Nanotechnology, 7, Pp. 266-69
R. J. Jackman, D. C. Duffy, E. Ostuni, N. D. Willmore, and G. M. Whitesides. 1998. “Fabricating Large Arrays of Microwells With Arbitrary Dimensions and Filling Them Using Discontinuous Dewetting”. Analytical Chemistry, 70, Pp. 2280-87
R. J. Jackman, D. C. Duffy, E. Ostuni, N. D. Willmore, and G. M. Whitesides. 1998. “Fabricating Large Arrays of Microwells With Arbitrary Dimensions and Filling Them Using Discontinuous Dewetting”. Analytical Chemistry, 70, Pp. 2280-87
G. M. Whitesides, A. J. Black, P. F. Nealey, and J.L. Wilbur. 1996. “Self-Assembled Monolayers and Lithography”. In The Robert A. Welch Foundation 39th Conference on Chemical Research on Nanophase Chemistry, Pp. 109-21. Houston, TX
G. M. Whitesides, A. J. Black, P. F. Nealey, and J.L. Wilbur. 1996. “Self-Assembled Monolayers and Lithography”. In The Robert A. Welch Foundation 39th Conference on Chemical Research on Nanophase Chemistry, Pp. 109-21. Houston, TX