G
George M. Whitesides
Researcher at Harvard University
Publications - 1754
Citations - 287794
George M. Whitesides is an academic researcher from Harvard University. The author has contributed to research in topics: Monolayer & Self-assembled monolayer. The author has an hindex of 240, co-authored 1739 publications receiving 269833 citations. Previous affiliations of George M. Whitesides include University of California, Davis & University of Texas at Austin.
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Generating ∼90 nanometer features using near-field contact-mode photolithography with an elastomeric phase mask
TL;DR: In this paper, an elastomeric phase mask was used in conformal contact with photoresist to generate ∼90nm lines in commercially available photoresists, using broadband, incoherent light with wavelengths between 330 and 460 nm.
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Rapid fabrication of pressure-driven open-channel microfluidic devices in omniphobic RF paper
Ana C. Glavan,Ramses V. Martinez,Ramses V. Martinez,E. Jane Maxwell,Anand Bala Subramaniam,Rui M. D. Nunes,Siowling Soh,George M. Whitesides,George M. Whitesides +8 more
TL;DR: This paper describes the fabrication of pressure-driven, open-channel microfluidic systems with lateral dimensions of 45-300 microns carved in omniphobic paper using a craft-cutting tool, which enables the development of new types of valves and switches, such as "fold valves" and "porous switches," which provide new methods to control fluid flow.
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Microcontact Printing of Alkanephosphonic Acids on Aluminum: Pattern Transfer by Wet Chemical Etching
TL;DR: In this article, microcontact printing has been used to pattern octadecanephosphonic acid on the native oxide surface film of aluminum supported on silicon or on silicon nitride-coated silicon wafers.
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Non-Photolithographic Methods for Fabrication of Elastomeric Stamps for Use in Microcontact Printing
TL;DR: In this paper, the authors describe several methods that generate patterned relief structures for casting the elastomeric stamps required in microcontact printing (μCP), including patterns etched in thin films of silver (200 nm thick) with printed SAMs of hexadecanethiolate as resists, patterned polymeric structures assembled on the surface of a thin film of silver or gold that has been patterned with SAMs, and polystyrene microspheres assembled on a flat surface.
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Digital Logic for Soft Devices
Daniel J. Preston,Philipp Rothemund,Haihui Joy Jiang,Haihui Joy Jiang,Markus P. Nemitz,Markus P. Nemitz,Jeff Rawson,Zhigang Suo,George M. Whitesides +8 more
TL;DR: These macroscale soft digital logic gates are scalable to high volumes of airflow, do not consume power at steady state, and can be reconfigured to achieve multiple functionalities from a single design.