Patent application number | Description | Published |
20080220524 | Three dimensional gum matrices for cell culture, manufacturing methods and methods of use - This invention relates three dimensional porous cell culture matrices or scaffolds which have directional porous structure. More particularly, this invention relates to three dimensional porous cell culture matrices or scaffolds for cell culture which are derived from or contain gums including naturally occurring gums, plant gums, galactomannan gums or derivatives thereof. The invention also relates to methods of making the matrices, articles of manufacture (e.g., cell culture vessels and labware) having such matrices or scaffolds, methods of applying these materials to cell culture surfaces, and methods of using cell culture vessels having these three dimensional porous cell culture matrices or scaffolds. | 09-11-2008 |
20080220526 | Gum coatings for cell culture, methods of manufacture and methods of use - This invention relates to coatings for cell culture surfaces. More particularly, this invention relates to coatings for cell culture surfaces which are derived from or contain gums including naturally occurring gums, plant gums, galactomannan gums or derivatives thereof. The invention also relates to articles of manufacture (e.g., cell culture vessels and labware) having such coatings, methods of applying these coatings to cell culture surfaces, and methods of using coated cell culture vessel. | 09-11-2008 |
20090214413 | ORDERED MESOPOROUS CARBONS AND METHOD FOR MANUFACTURING SAME - The present invention relates to an ordered mesoporous carbon and method for manufacturing the ordered mesoporous carbon which is made from a surfactant, a carbon precursor, water (possibly mixed with an acid) and a water immiscible oil. In addition, the present invention relates to a method of formulating a composition which is used to manufacture the ordered mesoporous carbon. Moreover, the present invention relates to an activated carbon which is made by partially oxidizing an ordered mesoporous carbon. | 08-27-2009 |
20100040834 | Synthesis Of Ordered Mesoporous Carbon-Silicon Nanocomposites - A method for preparing ordered mesoporous silicon carbide (OMSiC) nanocomposites uses an evaporation-induced self-assembly of a precursor composition that preferably includes a phenolic resin, pre-hydrolyzed tetraethyl orthosilicate, a surfactant, and butanol. The precursor mixture is dried, cross-linked and heated to form ordered mesoporous silicon carbide material having discrete domains of ordered, mesoscale pores. | 02-18-2010 |
20100040861 | Ordered Mesoporous Free-Standing Carbon Films And Form Factors - Free-standing ordered mesoporous carbon films and form factors are prepared by depositing an aqueous precursor mixture that includes a water soluble carbon precursor, a non-ionic surfactant, and an oil onto a substrate or scaffold, drying the precursor mixture, and then cross-linking and heat treating (carbonizing) the carbon precursor. After carbonization, the ordered mesoporous carbon films and form factors include discrete domains of ordered, mesoscale pores. | 02-18-2010 |
20100190255 | CROSS-LINKED GUMS FOR HEPATOCYTE CULTURE - This disclosure relates to cell culture surfaces derived from or contain gums including naturally occurring gums, plant gums, galactomannan gums or derivatives thereof including carboxyalkyl guar gum. Even more particularly, the disclosure relates to chemically or physically cross-linked modified gums where the gum surfaces are tuned to provide cell culture surfaces with physical and chemical characteristics particularly suited for hepatocyte culture. The disclosure also relates to articles of manufacture (e.g., cell culture vessels and labware) having such matrices, methods of making and providing the matrices to cell culture surfaces, and methods of using cell culture vessels having such matrices. | 07-29-2010 |
20100279068 | EMBOSSED GLASS ARTICLES FOR ANTI-FINGERPRINTING APPLICATIONS AND METHODS OF MAKING - A process for creating hydrophobic and oleophobic glass surfaces. The process consists of heating a glass article to temperatures near the glass softening point and pressing a textured mold into the glass article to create surface texture. The mold texture is selected to have dimensions that convey hydrophobicity and oleophobicity to the glass article when combined with appropriate surface chemistry. The surface features are controlled through choice of mold texture and through process parameters including applied pressure, temperature, and pressing time. Articles made by this process are also described. | 11-04-2010 |
20100285272 | MULTI-LENGTH SCALE TEXTURED GLASS SUBSTRATES FOR ANTI-FINGERPRINTING - A glass substrate having at least one surface with engineered properties that include hydrophobicity, oleophobicity, anti-stick or adherence of particulate or liquid matter, durability, and transparency (i.e., haze<10%). The surface comprises a plurality of sets of topological features that together have a re-entrant geometry that prevents a decrease in contact angle and pinning of drops comprising at least one of water and sebaceous oils. | 11-11-2010 |
20100285275 | FINGERPRINT-RESISTANT GLASS SUBSTRATES - A glass substrate having at least one surface with engineered properties that include hydrophobicity, oleophobicity, anti-stick or adherence of particulate or liquid matter, resistance to fingerprinting, durability, and transparency (i.e., haze<10%). The surface comprises at least one set of topological features that together have a re-entrant geometry that prevents a decrease in contact angle and pinning of drops comprising at least one of water and sebaceous oils. | 11-11-2010 |
20110053271 | IRRADIATION INDUCED GRAFTING OF POLYSACCHARIDES TO CELL CULTURE VESSELS - A method for grafting a polysaccharide to a surface of a cell culture article includes (a) contacting the surface of the article with the polysaccharide in a dry form; and (b) exposing the surface of the article and contacted dry polysaccharide to ionizing radiation to graft the polysaccharide to the surface of the article. In addition to grafting the polysaccharide to the surface, the ionizing radiation may serve to sterilize the article. | 03-03-2011 |
20120034435 | COATED, ANTIMICROBIAL, CHEMICALLY STRENGTHENED GLASS AND METHOD OF MAKING - The disclosure is directed to a chemically strengthened glass having antimicrobial properties and to a method of making such glass. In particular, the disclosure is directed to a chemically strengthened glass with antimicrobial properties and with a low surface energy coating on the glass that does not interfere with the antimicrobial properties of the glass. The antimicrobial has an Ag ion concentration on the surface in the range of greater than zero to 0.047 μg/cm | 02-09-2012 |
20120040462 | NANOFIBERS, NANOFILMS AND METHODS OF MAKING/USING THEREOF - Described herein are compositions for making nanofibers and nanofilms composed of metal oxides, organic polymers, or combinations thereof. Also described herein are methods for making nanofibers and nanofilms where the fibers are formed from a solution having more than one solvent, where the solvents are immiscible. Nanofibers and nanofilms composed of metal oxides, organic polymers or combinations thereof are described. Finally, methods for using the nanofibers and nanofilms are described. | 02-16-2012 |
20120107558 | TRANSPARENT SUBSTRATE HAVING DURABLE HYDROPHOBIC/OLEOPHOBIC SURFACE - A substrate having a durable hydrophobic and/or oleophobic surface. The durable hydrophobic and/or oleophobic surface includes a first layer that is disposed on the substrate and comprises inorganic nanoparticles, an outer layer comprising a fluorosilane, and an optional immobilizing layer that comprises at least one of an inorganic oxide and a silsesquioxane. The durable surface is capable of retaining optical properties, such as haze, and hydrophobic and/or oleophobic properties after repeated contact with foreign objects such as, for example, wiping with a cloth or human finger. | 05-03-2012 |
20120196088 | ARTICLE AND METHOD FOR FORMING LARGE GRAIN POLYCRYSTALLINE SILICON FILMS - A templated mold comprises a mold body formed from a mold material. The mold body has at least one major surface with a patterned layer formed from a patterning material disposed over the major surface. The patterned layer defines a high nucleation energy barrier surface and a plurality of nucleation surfaces, such that a contact angle of a molten semiconducting material with the nucleation surfaces is less than a contact angle of the molten semiconducting material with the high nucleation energy barrier surface, and the nucleation surfaces are formed from either the mold material or the patterning material. | 08-02-2012 |
20120281292 | Glass Article Having Antireflective Layer and Method of Making - Durable antireflective coatings and glass articles having such coatings are described herein. The antireflective coatings generally include a layer of nominally hexagonally packed nanoparticles that are partially embedded either in a surface of the glass article or in a binder that is on the surface of the glass article. Methods of making the antireflective coatings or layers and glass articles having such antireflective layers are also described. | 11-08-2012 |
20130115441 | Method of Binding Nanoparticles to Glass - Provided herein are nanoparticulate coated structures and methods of making structures. The structures comprise a support element, a nanoparticulate layer, and a binder disposed on the support element, wherein the binder comprises an alkali silicate or borate. In addition, methods of making the structures and uses of the described structures are described herein. | 05-09-2013 |
20130130004 | SMUDGE-RESISTANT GLASS ARTICLES AND METHODS FOR MAKING AND USING SAME - Described herein are coated glass or glass-ceramic articles having improved smudge resistance. Further described are methods of making and using the improved articles. The coated articles generally include a glass or glass-ceramic substrate and an oleophilic coating disposed thereon. The oleophilic coating is not a free-standing adhesive film, but a coating that is formed on or over the glass or glass-ceramic substrate. | 05-23-2013 |
20130149496 | FINGERPRINT-RESISTANT ARTICLES AND METHODS FOR MAKING AND USING SAME - Described herein are various methods for making textured articles, textured articles that have improved fingerprint resistance, and methods of using the textured articles. The textured articles generally include a substrate and at least two different sets of nanostructured topographical features that are created in or on a surface of the substrate. Each set of nanostructured topographical features will have at least one average dimensional attribute that is different from that of any other set of nanostructured topographical features. | 06-13-2013 |
20130323466 | OLEOPHOBIC GLASS ARTICLES AND METHODS FOR MAKING AND USING SAME - Described herein are glass substrates having oleophobic surfaces that are substantially free of features that form a reentrant geometry. The surfaces can include a plurality of gas-trapping features, extending from the surface to a depth below the surface, that are substantially isolated from each other. The gas-trapping features are capable of trapping gas below any droplets that are contacted with the surface so as to prevent wetting of the surface by the droplets. | 12-05-2013 |
20140017462 | ANTIMICROBIAL ACTION OF Cu, CuO and Cu20 NANOPARTICLES ON GLASS SURFACES AND DURABLE COATINGS - A transparent cover glass for applications such as, but not limited to, touch screen devices that embody antimicrobial properties that include s being antibacterial, antifungal, and antiviral. The antimicrobial glasses contain nanoparticles of Cu or Cu | 01-16-2014 |
20140072783 | COATED, ANTIMICROBIAL, CHEMICALLY STRENGTHENED GLASS AND METHOD OF MAKING - The disclosure is directed to a chemically strengthened glass having antimicrobial properties and to a method of making such glass. In particular, the disclosure is directed to a chemically strengthened glass with antimicrobial properties and with a low surface energy coating on the glass that does not interfere with the antimicrobial properties of the glass. The antimicrobial has an Ag ion concentration on the surface in the range of greater than zero to 0.047 μg/cm | 03-13-2014 |
20140091292 | OLEDs COMPRISING LIGHT EXTRACTION SUBSTRUCTURES AND DISPLAY DEVICES INCORPORATING THE SAME - An organic light emitting diode comprising a light extraction substructure and a diode superstructure is provided. The light extraction substructure comprises a light expulsion matrix distributed over discrete light extraction waveguide elements and a waveguide surface of the glass substrate. The light expulsion matrix is distributed at varying thicknesses to enhance the planarity of a diode superstructure-engaging side of the light extraction substructure and to provide light expulsion sites at the waveguide element termination points of the discrete light extraction waveguide elements. In operation, light originating in the organic light emitting semiconductor material of the diode superstructure is coupled to the discrete waveguide elements of the light extraction substructure as respective coupled modes characterized by an approximate coupling length defined as the propagation distance required for an optical mode to be coupled from the superstructure waveguide to one of the discrete waveguide elements of the light extraction substructure. | 04-03-2014 |
20140322547 | Antimicrobial Glass Articles and Methods for Making and Using Same - Described herein are coated glass or glass-ceramic articles having improved antimicrobial efficacy. Further described are methods of making and using the improved articles. The coated articles generally include a glass or glass-ceramic substrate and an antimicrobial coating disposed thereon. The antimicrobial coating is not a free-standing adhesive film, but a coating that is formed on or over at least a portion of a surface of the glass or glass-ceramic substrate. | 10-30-2014 |