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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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Elastomeric mask and use in fabrication of devices, inlcuding pixelated electroluminescent displays
TL;DR: In this paper, an elastomeric mask is provided that allows deposition of a variety of materials through mask openings, allowing simple deposition from fluid phase, gas phase, and the like or removal of material using gaseous or liquid etchants.
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Water-soluble complexes of tertiary phosphines and rhodium(I) as homogeneous catalysts
TL;DR: In this article, the authors report the development of coupling reactions which permit the facile conversion of (bis(2-diphenylphosphinoeth-yl)amine (l lz's) to a wide variety of water-soluble diphosphines.
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Increasing the net charge and decreasing the hydrophobicity of bovine carbonic anhydrase decreases the rate of denaturation with sodium dodecyl sulfate.
TL;DR: The kinetics of denaturation in solutions containing SDS of the protein charge ladders generated with acetic and hexanoic anhydrides are reported, with the proteins with an intermediate number of modifications being the most stable to denaturation by SDS.
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Use of a Patterned Self-Assembled Monolayer To Control the Formation of a Liquid Resist Pattern on a Gold Surface
TL;DR: Self-assembled monolayers (SAMs) as discussed by the authors have been used as molecular resistors in a variety of applications, such as chemical etching of gold and electrochemic deposition of metal and conjugated polymers on its surface.
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Arrays and cascades of fluorescent liquid-liquid waveguides: broadband light sources for spectroscopy in microchannels.
TL;DR: This paper describes the fabrication and operation of fluidic broadband light sources for use "on-chip" in integrated microanalytical systems that consist of liquid-core, liquid-cladding (L2) microchannel waveguides with liquid cores containing fluorescent dyes, excited by incident light from an external halogen bulb.