Patent application number | Description | Published |
20080206539 | Durable conformal wear-resistant carbon-doped metal oxide-comprising coating - The present invention is related to carbon-doped metal oxide films. The carbon-doped metal oxide films provide a low coefficient of friction, for example ranging from about 0.05 to about 0.4. In addition, the carbon-doped metal oxide films applied over a silicon substrate, for example, provide anti-stiction properties, where the measured work of adhesion for a MEMS device cantilever beam coated with the carbon-doped metal oxide film is less than 10 μJ/m | 08-28-2008 |
20080241512 | Articles with super-hydrophobic and-or super-hydrophilic surfaces and method of formation - The present invention is related to a chemical vapor deposition method of depositing layers of materials to provide super-hydrophilic surface properties, or super-hydrophobic surface properties, or combinations of such properties at various locations on a given surface. The invention also relates to electronic applications which make use of super-hydrophobic surface properties, and to biological applications which make use of super-hydrophilic surface properties. | 10-02-2008 |
20080274281 | Vapor deposited functional organic coatings deposited on a halogen-containing substrate - We have developed an improved vapor-phase deposition method and apparatus for the attachment of organic films/coatings containing a variety of functional groups on halogen-containing substrates. The substrate surface is halogenated using a vaporous halogen-containing compound, followed by a reaction with at least one organic molecule containing at least one nucleophilic functional group. Halogenation of the substrate surface and subsequent reaction with the organic molecule are carried out in the same process chamber in a manner such that the halogenated substrate surface does not lose its functionality prior to reaction with the nucleophilic functional group(s) on the organic molecule. | 11-06-2008 |
20080299288 | Durable, heat-resistant multi-layer coatings and coated articles - A method of providing a durable protective coating structure which comprises at least three layers, and which is stable at temperatures in excess of 400° C., where the method includes vapor depositing a first layer deposited on a substrate, wherein the first layer is a metal oxide adhesion layer selected from the group consisting of an oxide of a Group IIIA metal element, a Group IVB metal element, a Group VB metal element, and combinations thereof; vapor depositing a second layer upon said first layer, wherein said second layer includes a silicon-containing layer selected from the group consisting of silicon oxide, silicon nitride, and silicon oxynitride; and vapor depositing a third layer upon said second layer, wherein said third layer is a functional organic-comprising layer. Numerous articles useful in electronics, MEMS, nanoimprinting lithography, and biotechnology applications can be fabricated using the method. | 12-04-2008 |
20100068489 | Wear-resistant, carbon-doped metal oxide coatings for MEMS and nanoimprint lithography - The carbon-doped metal oxide films described provide a low coefficient of friction, typically ranging from about 0.05 to about 0.4. Applied over a silicon substrate, for example, the carbon-doped metal oxide films provide anti-stiction properties, where the measured work of adhesion for a coated MEMS cantilever beam is less than 10 μJ/m | 03-18-2010 |
20100075034 | Controlled deposition of silicon-containing coatings adhered by an oxide layer - We have developed an improved vapor-phase deposition method and apparatus for the application of films/coatings on substrates. The method provides for the addition of a precise amount of each of the reactants to be consumed in a single reaction step of the coating formation process. In addition to the control over the amount of reactants added to the process chamber, the present invention requires precise control over the total pressure (which is less than atmospheric pressure) in the process chamber, the partial vapor pressure of each vaporous component present in the process chamber, the substrate temperature, and typically the temperature of a major processing surface within said process chamber. Control over this combination of variables determines a number of the characteristics of a film/coating or multi-layered film/coating formed using the method. By varying these process parameters, the roughness and the thickness of the films/coatings produced can be controlled. | 03-25-2010 |
20100137984 | CONTROLLED VAPOR DEPOSITION OF BIOCOMPATIBLE COATINGS FOR MEDICAL DEVICES - An intraocular lens with a hydrophilic polymer coating composition and method of preparing same are provided. Specifically, a composition suitable for reducing tackiness in intraocular lenses is provided wherein an acrylic intraocular lens is treated by vapor deposition with an alkoxy silyl terminated polyethylene glycol polymer composition. | 06-03-2010 |
20100304132 | Controlled vapor deposition of multilayered coatings adhered by an oxide layer - An improved vapor-phase deposition method and apparatus for the application of multilayered films/coatings on substrates is described. The method is used to deposit multilayered coatings where the thickness of an oxide-based layer in direct contact with a substrate is controlled as a function of the chemical composition of the substrate, whereby a subsequently deposited layer bonds better to the oxide-based layer. The improved method is used to deposit multilayered coatings where an oxide-based layer is deposited directly over a substrate and an organic-based layer is directly deposited over the oxide-based layer. Typically, a series of alternating layers of oxide-based layer and organic-based layer are applied. | 12-02-2010 |
20110217449 | CONTROLLED VAPOR DEPOSITION OF BIOCOMPATIBLE COATINGS FOR MEDICAL DEVICES - An intraocular lens with a hydrophilic polymer coating composition and method of preparing same are provided. Specifically, a composition suitable for reducing tackiness in intraocular lenses is provided wherein an acrylic intraocular lens is treated by vapor deposition with an alkoxy silyl terminated polyethylene glycol polymer composition. | 09-08-2011 |
20120045884 | PROTECTIVE THIN FILMS FOR USE DURING FABRICATION OF SEMICONDUCTORS, MEMS, AND MICROSTRUCTURES - A method of protecting a substrate during fabrication of semiconductor, MEMS devices. The method includes application of a protective thin film which typically has a thickness ranging from 3 angstroms to about 1,000 angstroms, wherein precursor materials used to deposit the protective thin film are organic-based precursors which include at least one fluorine-comprising functional group at one end of a carbon back bone and at least one functional bonding group at the opposite end of a carbon backbone, and wherein the carbon backbone ranges in length from 4 carbons through about 12 carbons. In many applications at least a portion of the protective thin film is removed during fabrication of the devices. | 02-23-2012 |
20130320509 | MOISTURE BARRIER COATINGS - A moisture barrier coating for protecting a substrate from moisture, comprises an inorganic layer disposed over the substrate, the inorganic layer comprising an oxide or nitride of an element selected from the group consisting of silicon, aluminum, titanium, zirconium, hafnium and combinations thereof; and an organic silicon-containing layer disposed over the inorganic layer. | 12-05-2013 |
20130320510 | DURABLE, HEAT-RESISTANT MULTI-LAYER COATINGS AND COATED ARTICLES - An article having a surface treated to provide a protective coating structure in accordance with the following method: vapor depositing a first layer on a substrate, wherein said first layer is a metal oxide adhesion layer selected from the group consisting of an oxide of a Group IIIA metal element, a Group IVB metal element, a Group VB metal element, and combinations thereof; vapor depositing a second layer upon said first layer, wherein said second layer includes a silicon-containing layer selected from the group consisting of silicon oxide, silicon nitride, and silicon oxynitride; and vapor depositing a third layer upon said second layer, wherein said third layer is a functional organic-comprising layer, wherein said functional organic-comprising layer is a SAM. | 12-05-2013 |