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Description: Physical and organic chemistry, materials science, biophysics, complexity, surface science, microfluidics, self-assembly, micro- and nanotechnology, science for developing economies, origin of life, and cell-surface biochemistry.

Subcat: https://morefunz.com/science/chemistry/research-groups/?page=2

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WEBSITE Info

Page title:	Whitesides Research Group
Keywords:	george whitesides, g m whitesides, g whitesides, gmw, gmwgroup, harvard university, the massachusetts institute of technology, department of chemistry and chemical biology, division of engineering and applied sciences, westervelt, sunney xie, charles lieber, hongkun park, david weitz, don ingber, mallinckrodt, defense advanced research projects agency (DARPA), national institutes of health (NIH), department of energy (DOE), national institute of science and technology (NIST), surface logix, claros diagnostics, microfluidics, fluidic optics, simple nanotechnology, science for developing economies, complexity and emergence, magnetics, electrets, organic surface science, functional self-assembly, organic organometallic electronics, proteomics and protein biophysics, cell biology, polyvalency, origin of life, poly(dimethylsiloxane), PDMS, unconventional, top-down lithography, bottom-up lithography, integrated circuit, lab-on-a-chip, micro total analysis systems (µTAS), soft lithography, nanofabrication, nanostructures, microstructures, microdevice, nanodevice, rapid prototyping, replica molding (RM), solvent-assisted micromolding (SAMIM), micromolding in capillaries (MIMIC), microtransfer molding (µTM), microcontact printing (µCP), polyethylene-glycol (PEG), self-assembled monolayers (SAMs) (SAM), electrical microcontact printing (e-µCP), electroosmotic flow (EOF), surface analytical techniques, electrochemical desorption, edge lithography, controlled undercutting, approaching zero, crystalline fracture, cracking, metallic half-shells, polyacrylamide, photopolymerized, metallic rods, free-standingmetallic pyramidal shells, cell motility assay, hydrophobic, hydrophilic, bubbles and droplets in microchannels, electrokinetic flow, laminar streams, laminar flow, TWIST valves, TWIST pumps, monodisperse polymer hydrogel and metal, microparticles, streams of fluid, proteomic analysis and high-throughput, biochemical assays, isotachophoresis, reagents under pressure, microfluidic pump, surface gradients, 3D microstructures, microknots, chaotic mixer, monodisperse particles, photonics, photonic circuits, electro-optical devices, fluid optical waveguides, L2 waveguide, liquid-liquid, microfluidic dye laser, microfluidic light sources, microfluidic light sources, prepolymer, simple solutions, health diagnostics, POCKET immunoassay, portable and cost-effective, enzyme-linked immunosorbent assays, silver reduction, frequency modulation, tuberculosis HIV typhoid fever, diagnostics, reagent-loaded cartridges, novel energy concepts,portable and low-cost immunoassay for, resource-poor settings, valveless and automated fluid delivery in microfluidic devices, low-temperature coal fuel cell, periodic and chaotic formation of bubbles, stable periodic behavior, solving mazes using bubbles in microchannels, monodisperse, flow-focusing, T-junction, dynamic aggregation of chiral spinners, dynamic self assembly of rings of charged, metallic spheres, parallel fluid interfaces, 3D structures by self-assembly, magnetic rods, magnetic sphere, magnetic levitation, magnetic tweezer, magnetic filtration, magnetic bead,magnetic microbead, magnetic microfiltration, electrowetting, superparamagnetic, electrets, permanently induced dipoles, kelvin generator, kelvin electrostatic generator, self-assembly of microspheres, contact electrification, manipulation of the wettability of surfaces, patterning proteins and cells, cell patterning, cellular patterning, protein patterning, spontaneous organization of interacting, components, ordered aggregate, self-healing materials, folding tapes and sheets, capillary forces, passive electronic components, microchip self-assembly, plasticity and redundancy, shape-complementarity, reconfigurable devices, reconfigurable systems, 3D recognition, three-dimensional recognition, magnetic self-assembly, chiral components, helical components, vertebrate spine, forming electrical networks, functional cylindrical display, novel display technology, capillary interactions, mesoscale self-assembly, alkanethiolates, thiolate, two-terminal junction, three-terminal junction, mercury drop junction, break junctions, nanopores, conducting atomic force microscopy (cAFM), scanning tunneling microscopy (STM), organic electronics, carbonic anhydrase, model protein, surface charge in protein folding, surfactant denaturation, enthalpy/entropy compensation in protein-ligand binding, charge ladders, electrostatic effects in proteins, protein-surfactant interactions, protein-SDS complex, SDS, benzenesulfonamides, drug design, pharmaceutical design, sodium dodecyl sulfate, patterning mammalian cells, viability of cells, tear-drop cells, polarized cells, cytoskeleton, cytoskeletal structure, gradients of laminin, increasing laminin concentration, movement mitochondria, surface gradient, elsatomeric membranes, bacterial swarming, microchannels and microwells, swimming microorganisms, E. coli, escherichia coli, agarose microchannels, agarose microchambers, agar microchannels, agar microchambers, swarming bacteria, filamentous cells, vibrio fischeri, bacterial stamping, biofilms, bacterial microstamping, swarming microorganisms, chlamydomonas reinhardtii, microoxen, photosynthetic algae, multiple laminar fluid flows in capillary networks, subcellular positioning, gradients of substrate-bound laminin orient, axonal specification of neurons, bacterial printing press, regenerates its ink, contact-printing bacteria, hydrogel stamps, motile microorganisms, microscale loads, simultaneous interaction, multiple ligands, multiple receptors, interaction of individual ligands, antibodies interacting with ligands, surfaces of viruses, pathogens adhering to target cells, interaction of bacterial toxins, cell surfaces, assembly of the attack complex, complement activation, interaction of cell-surface receptors with hormones, molecular recognition, multivalent molecular recognition, polyvalent molecular recognition, divalency of antibodies, divalent antibodies, polymers presenting multiple ligands, polymeric multivalency, polymeric polyvalency, kinetic and thermodynamic basis for polyvalency, oligovalent, monovalent, microcalorimetry, theory of avidity, clinical immunology, influenza-mediated hemagglutination, polyvalent inhibitors, multivalent inhibitors, bifunctional polymers, polyvalent adhesion, multivalent adhesion, uropathogenic escherichia coli, mannose-presenting surfaces, vancomycin and fluorescein groups, anti-fluorescein antibodies, D-alanine-D-alanine, anthrax, anthrax toxin, inhibition of bacterial adhesion, adhesion of lectins, surface of erythrocytes, trivalent system, vancomycin-D-Ala-D-Ala, avidin-biotin, delf-assembled aggregates of IgG, clusters of gold nanoparticles, what is the origin of life, prebiotic energetics, prebiotic mechanisms for storing information, what sources of free energy, drive the earliest proto-biochemical reactions, how was information first encoded, prebiotic storage of information and energy, mechanisms for the conversion and storage of free energy, chemical origin of life, concentration gradients, phosphoanhydride bonds, ATP and inorganic polyphosphate, energetic currency of modern biology, carbon dioxide, green chemistry, thermocycles, paper diagnostics, cells on paper, extracellular concentration of potassium, machinery of life, polyphosphates from salts of inorganic phosphate, DNA, deoxyribonucleic acid, primordial soup, capillary electrophoresis and protein biophysics, multivalency mechanisms and applications, synthesis and manipulation of biofunctional, magnetic particles, dynamic self-assembly emergence and complexity, tools to study cell motility in ion channels, design and processing of electret structures, center for optofluidic integration, pixelated matter for multi-functional composites development
Description:	The George Whitesides Research Group in the Department of Chemistry and Chemical Biology at Harvard University, Cambridge, Massachusetts, USA. High Impact Innovation and Imagination.
IP-address:	140.247.195.226

WHOIS Info

NS	Name Servers: EXTERNALDNS-C1.HARVARD.EDU 128.103.200.35 EXTERNALDNS-C2.HARVARD.EDU 128.103.200.51
WHOIS
Date	activated: 27-Jun-1985 last updated: 04-Sep-2013 expires: 31-Jul-2014