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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Journal ArticleDOI
A magnetic trap for living cells suspended in a paramagnetic buffer
Adam Winkleman,Katherine L. Gudiksen,Declan Ryan,George M. Whitesides,Derek Greenfield,Mara Prentiss +5 more
TL;DR: The trapped particle and location of the magnetic trap can be translated in three dimensions by independent manipulation of the permanent magnets and characterizes the biocompatibility of the trapping solution.
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Using Electrospray Ionization FTICR Mass Spectrometry To Study Competitive Binding of Inhibitors to Carbonic Anhydrase
Xueheng Cheng,Ruidan Chen,James E. Bruce,Brenda L. Schwartz,Gordon A. Anderson,Steven A. Hofstadler,David C. Gale,Richard D. Smith,Jinming Gao,George Sigal,Mathai Mammen,George M. Whitesides +11 more
TL;DR: The work demonstrates that ESI-MS has significant potential for measuring relative binding affinities and characterizing the structures of ligands associated noncovalently to proteins and should be widely useful in medicinal chemistry.
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Microcontact Printing of Alkanethiols on Silver and Its Application in Microfabrication
TL;DR: In this article, microcontact printing was used to generate patterned self-assembled monolayers of alkanethiolates on the surfaces of evaporated films of copper, which could be directly used as ultrathin resists that protected the underlying copper from etching in aqueous solutions of FeCl3/HCl or FeCl 3/NH4Cl.
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Design and fabrication of topologically complex, three-dimensional microstructures
TL;DR: Microelectrodeposition provides an additive method that strengthens thin metal designs produced by patterning, welds nonconnected structures, and enables the high-strain deformations required in one method to be carried out successfully.
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Introduction, modification, and characterization of functional groups on the surface of low-density polyethylene film
TL;DR: The surface functionality consists primarily of carbon-r'l dcrivativcs, with approximttcly 6ClX, oi thcsc prescnt as carboxylic acid groups and 40'b as kctoncs or aldchydes as discussed by the authors.