30 results on '"George M. Whitesides"'
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2. Surface Plasmon Resonances of Free-Standing Gold Nanowires Fabricated by NanoskivingThis research was supported by the NIH (GM065364), by DARPA (sub-award to G.M.W. from the Center for Optofluidic Integration at the California Institute of Technology), and by a MURI AFOSR sub-award to F.C. MRSEC and NSEC shared facilities supported by the NSF under awards DMR-0213805 (MRSEC) and PHY-0117795 (NSEC) were utilized. We thank Ertugrul Cubukcu, Dr. Marko Loncar, Dr. Brian Mayers, and Prof. Kenneth Crozier for helpful discussions.
3. Surface Plasmon Resonances of Free-Standing Gold Nanowires Fabricated by NanoskivingThis research was supported by the NIH (GM065364), by DARPA (sub-award to G.M.W. from the Center for Optofluidic Integration at the California Institute of Technology), and by a MURI AFOSR sub-award to F.C. MRSEC and NSEC shared facilities supported by the NSF under awards DMR-0213805 (MRSEC) and PHY-0117795 (NSEC) were utilized. We thank Ertugrul Cubukcu, Dr. Marko Loncar, Dr. Brian Mayers, and Prof. Kenneth Crozier for helpful discussions.
4. Why Are Proteins Charged? Networks of Charge–Charge Interactions in Proteins Measured by Charge Ladders and Capillary Electrophoresis.
5. Warum sind Proteine geladen? Netzwerke aus Ladungs-Ladungs-Wechselwirkungen in Proteinen, analysiert über Ladungsleitern und Kapillarelektrophorese.
6. Synthesis and Conformational Study of Water-Soluble, Rigid, Rodlike OligopiperidinesThis work was supported by the NIH (Grant GM30367). V.S. acknowledges La Ligue contre le Cancer for a postdoctoral fellowship. Initial design of this project was carried out by Dr. Val Martichonok.
7. Synthesis and Conformational Study of Water-Soluble, Rigid, Rodlike OligopiperidinesThis work was supported by the NIH (Grant GM30367). V.S. acknowledges La Ligue contre le Cancer for a postdoctoral fellowship. Initial design of this project was carried out by Dr. Val Martichonok.
8. Modeling the Anodic Half-Cell of a Low-Temperature Coal Fuel CellThis research was supported by the DoE (DE-FG02-OOER45852) and DARPA. D.B.W. was a recipient of a postdoctoral fellowship from the National Institutes of Health (GM067445). R.F. was a recipient of a postdoctoral fellowship from the Swiss National Science Foundation. We thank Wyodak Resources, Williams Coal & Oil, Dakota Westmoreland Corporation, and the American Coal Foundation for samples of coal.
9. Modeling the Anodic Half-Cell of a Low-Temperature Coal Fuel Cell.
10. Generation of Monodisperse Particles by Using Microfluidics: Control over Size, Shape, and CompositionE.K. acknowledges the Canada Research Chair Fund. Work by P.G., D.B.W., I.G., and G.M.W. was supported by the NIH (GM65364), DoE (DE-FG02-OOER45852), and DARPA, and they used the MRSEC Shared Facilities supported by the NSF under Award No. DMR-9809363. H.A.S. thanks Unilever and Harvard MRSEC (DMR-0213805) for support. P.G. acknowledges the Foundation for Polish Science for a postdoctoral fellowship. D.B.W. thanks the NIH for a postdoctoral fellowship (GM067445). We thank Professor W. C. W Chan for help with the synthesis of CdSe QDs.
11. Generation of Monodisperse Particles by Using Microfluidics: Control over Size, Shape, and CompositionE.K. acknowledges the Canada Research Chair Fund. Work by P.G., D.B.W., I.G., and G.M.W. was supported by the NIH (GM65364), DoE (DE-FG02-OOER45852), and DARPA, and they used the MRSEC Shared Facilities supported by the NSF under Award No. DMR-9809363. H.A.S. thanks Unilever and Harvard MRSEC (DMR-0213805) for support. P.G. acknowledges the Foundation for Polish Science for a postdoctoral fellowship. D.B.W. thanks the NIH for a postdoctoral fellowship (GM067445). We thank Professor W. C. W Chan for help with the synthesis of CdSe QDs.
12. Micropatterned agarose gels for stamping arrays of proteins and gradients of proteins.
13. Electron Transfer in a Hg-SAM//SAM-Hg Junction Mediated by Redox CentersThe support of DARPA, NSEC (award no. NSF-PHY-0117795), EC (award no. G5RD-CT-2002-00776 MWFM), and NSERC (in the form of a postdoctoral fellowship to E.T.) is gratefully acknowledged. We thank Prof. Royce Murray, Prof. Wolfgang Schmickler, Mandar Deshmukh, Mark Gudiksen, Amy Prieto, Babak Parviz, Logan McCarty, Rosaria Ferrigno, and Sam Sia for helpful discussions, and Prof. Harry Finklea for providing a procedure for the synthesis of the ruthenium-containing thiol.
14. Assumptions: Taking Chemistry in New DirectionsI thank Michael Mayer, Mila Boncheva, and Barbara Whitesides for their suggestions and editorial help with this paper.
15. Electron Transfer in a Hg-SAM//SAM-Hg Junction Mediated by Redox CentersThe support of DARPA, NSEC (award no. NSF-PHY-0117795), EC (award no. G5RD-CT-2002-00776 MWFM), and NSERC (in the form of a postdoctoral fellowship to E.T.) is gratefully acknowledged. We thank Prof. Royce Murray, Prof. Wolfgang Schmickler, Mandar Deshmukh, Mark Gudiksen, Amy Prieto, Babak Parviz, Logan McCarty, Rosaria Ferrigno, and Sam Sia for helpful discussions, and Prof. Harry Finklea for providing a procedure for the synthesis of the ruthenium-containing thiol.
16. Chemie: auf zu neuen Zielen – Gedanken zur Zukunft der ChemieIch danke Michael Mayer, Mila Boncheva und Barbara Whitesides für ihre Diskussionsbeiträge und Hilfe beim Abfassen des Manuskripts.
17. Shear Patterning of Microdominos: A New Class of Procedures for Making Micro- and Nanostructures ( This research was supported by DARPA, NIH (GM065364), and used the MRSEC Shared Facilities supported by the NSF under Award No. DMR-9809363. ).
18. Shear Patterning of Microdominos: A New Class of Procedures for Making Micro- and Nanostructures ( This research was supported by DARPA, NIH (GM065364), and used the MRSEC Shared Facilities supported by the NSF under Award No. DMR-9809363. ).
19. Self-Assembled Aggregates of IgGs as Templates for the Growth of Clusters of Gold Nanoparticles ( This work was supported by the NIH (Grant GM30367). M.M. acknowledges the Swiss National Science Foundation for a postdoctoral fellowship. J.K. acknowledges support from the NDSEG for a predoctoral fellowship. P.G acknowledges the Foundation for Polish Science for a postdoctoral fellowship. We thank Dr. Declan Ryan for helpful discussions. IgGs=Immunoglobulin Gs. )
20. Self-Assembled Aggregates of IgGs as Templates for the Growth of Clusters of Gold Nanoparticles ( This work was supported by the NIH (Grant GM30367). M.M. acknowledges the Swiss National Science Foundation for a postdoctoral fellowship. J.K. acknowledges support from the NDSEG for a predoctoral fellowship. P.G acknowledges the Foundation for Polish Science for a postdoctoral fellowship. We thank Dr. Declan Ryan for helpful discussions. IgGs=Immunoglobulin Gs. )
21. An Integrated Approach to a Portable and Low-Cost Immunoassay for Resource-Poor Settings (This research was supported by DARPA/NSF (ECS-0004030) and NIH (GM 65364), and used the MRSEC shared facilities supported by the NSF under Award No. DMR-9809363. V.L. was a recipient of a postdoctoral fellowship from the Swiss National Science Foundation. A.S. was a recipient of a Howard Hughes Medical Institute Predoctoral Fellowship. We thank Tyler Aldredge of the Center for Genomics Research for technical assistance.)
22. An Integrated Approach to a Portable and Low-Cost Immunoassay for Resource-Poor Settings (This research was supported by DARPA/NSF (ECS-0004030) and NIH (GM 65364), and used the MRSEC shared facilities supported by the NSF under Award No. DMR-9809363. V.L. was a recipient of a postdoctoral fellowship from the Swiss National Science Foundation. A.S. was a recipient of a Howard Hughes Medical Institute Predoctoral Fellowship. We thank Tyler Aldredge of the Center for Genomics Research for technical assistance.)
23. Microfluidic devices fabricated in Poly(dimethylsiloxane) for biological studies.
24. Plasticity in Self-Assembly: Templating Generates Functionally Different Circuits from a Single Precursor ( This work was supported by the NSF (CHE-0101432) and DARPA. R.F. is grateful to the Swiss National Science Foundation for post-doctoral fellowship. )
25. Plasticity in Self-Assembly: Templating Generates Functionally Different Circuits from a Single Precursor ( This work was supported by the NSF (CHE-0101432) and DARPA. R.F. is grateful to the Swiss National Science Foundation for post-doctoral fellowship. )
26. Self-Healing Systems Having a Design Stimulated by the Vertebrate Spine ( This work was supported by DARPA. ).
27. Self-Healing Systems Having a Design Stimulated by the Vertebrate Spine ( This work was supported by DARPA. ).
28. Book Review: The Art of Scientific Writing. By Hans F. Ebel, Claus Bliefert, William E. Russey.
29. Generation of Monodisperse Particles by Using Microfluidics: Control over Size, Shape, and Composition.
30. Generation of Monodisperse Particles by Using Microfluidics: Control over Size, Shape, and Composition.
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