Abstract: In one aspect, the present invention is directed to methods for modification of functionalized substrates. In another aspect, the invention relates to systems and methods for fabricating multilayer polymer compositions. In certain embodiments, the multilayer polymer compositions described herein can comprise heterobifunctional polymers and heterotrifunctional molecules.

Abstract: Disclosed herein is an article comprising a substrate; a polymer disposed upon the substrate; the polymer having a number average molecular weight of about 2,000 to about 5,000 grams per mole; where each polymer is separated from a neighboring polymer by an average distance of 2.5 Angstroms to 5,000 Angstroms. Disclosed herein is a method comprising disposing upon a substrate a polymer; the polymer having a number average molecular weight of 2,000 to about 5,000 grams per mole.

Abstract: Processes are described herein for preparing medical devices and other articles having a low-fouling surface on a substrate comprising a polymeric surface. The polymeric surface material may possess a range of polymeric backbones and substituents while providing the articles with a highly efficient, biocompatible, and non-fouling surface. The processes involve treating the substrate to reduce the concentration of chemical species on the surface of or in the substrate without altering the bulk physical properties of the device or article, and thereafter forming a grafted polymer layer on the treated substrate surface.

Abstract: The present invention relates to an article coated with a composition comprising (A) an ethylene homo- or copolymer resin which has been prepared by using a single-site catalyst further characterized in that component (A) has an MFR21, measured according to ISO 1133 at 190° C. and under a load of 21.6 kg, from 0.01 to 20 g/10 min. The present invention further relates to an article coated with a composition comprising (A) an ethylene homo- or copolymer resin which has been prepared by using a single-site catalyst further characterized in that component (A) has an impact strength at ?40° C. of at least 80 kJ/m2 in a Charpy notched test according to ISO ISO 179-1/1eA:2000 with a pendulum energy of 15 J. The invention is furthermore directed to the use of the composition for the coating of an article.

Abstract: There is provided a transparent substrate which can be reduced in thickness, which is excellent in adhesiveness between an inorganic glass and a resin layer under a high-temperature and high-humidity environment, bending property, flexibility, and impact resistance, and which significantly prevents the progress of a crack in a glass. A transparent substrate according to an embodiment of the present invention includes: an inorganic glass; and a resin layer, which is obtained by applying a solution of a thermoplastic resin onto one side or both sides of the inorganic glass, wherein: the solution comprises a first thermoplastic resin having a hydroxy group at a terminal; the inorganic glass and the resin layer comprise an epoxy group-terminated coupling agent layer therebetween; the coupling agent layer is directly formed on the inorganic glass; and the resin layer is directly formed on the coupling agent layer.

Abstract: A substrate may be coated with a various combinations of a water-dispersible polyisocyanate, a water-soluble acid or salt thereof, and/or an isocyanate-reactive compound. The resulting coated article has improved coating adhesion, especially near coated burnished surfaces such as sawn edges or grooves.

Abstract: Provided are media vacuum transport systems including media vacuum transport members, methods of making media vacuum transport members, and method of transporting media. In accordance with various embodiments, there is a media vacuum transport system including a vacuum plenum one or more transport members configured to rotate around the vacuum plenum and wherein at least one of the one or more transport members can include a substrate, the substrate comprising a plurality of holes extending from a first side proximate to the vacuum plenum to a second side proximate to the media, and a top coat layer disposed over the substrate, wherein the top coat layer can include a plurality of particles dispersed in a resin to provide an average surface roughness Ra of about 2 ?m to about 100 ?m.

Abstract: A method of making a coated film comprises coating a first side of a base film with a coating material to form the coated film; wherein the base film was formed in a calendaring process, and wherein, during the calendaring process, the first side physically contacted less surface area of a first roll than a second side physically contacted of a second roll at a given time; and wherein the coated film has an uncoated second side.

Abstract: A low-to-medium mass density ablative thermal protection system (TPS) comprises a phenolic-based core member comprising a honeycombed plurality of cells separated by cell walls; and an ablator material comprising a carbonaceous material and a phenolic resin material filling the cells. The ablator material may further comprise silica and phenolic resin microspheres. Embodiments include fabricating the ablative TPS by filling the cells of the core member with a liquid slurry or dry mixture of the ablator material, followed by degassing, drying, and curing of the ablator material.

Abstract: An adhesion promoter, a coating composition containing the adhesion promoter, and a method for preparing the adhesion promoter and coating. The adhesion promoter is an olefin based polymer having at least one amine containing compound. The amine may be used as a catalyst for the coating.

Abstract: A coated microcarrier for cell culture includes a microcarrier base and a polymeric coating grafted to the base via a polymerization initiator. A method for forming the coated microcarrier includes (i) conjugating a polymerization initiator to the microcarrier base to form an initiator-conjugated microcarrier base; (ii) contacting the initiator-conjugated microcarrier base with monomers; and (iii) activating the initiator to initiate polymerization and graft the polymer to the base.

Abstract: Disclosed herein is an environmentally safe, grease and/or adhesion resistant article comprising an absorbent substrate, a cross-linking agent, and a polymer; wherein the substrate is first coated with the cross-linking agent and is then coated with the polymer.

Abstract: The present invention provides a hydrophilic film that has high adhesion to inorganic materials and is safer and excellent in transparency and also exhibits both very high hydrophilicity and abrasion resistance, and also provides a laminate including the hydrophilic film.

Abstract: The present invention provides a method of manufacturing a golf ball having a solid core formed of a rubber composition and a cover of at least one layer encasing the core, which method includes the steps of treating a surface of the core with a solution containing a halogenated isocyanuric acid and/or a metal salt thereof, and covering the treated core with a cover material. The invention also provides a golf ball obtained by such a method. Golf balls obtained by this method have a good feel and a good scuff resistance, and also have a high durability to impact.

Abstract: A method for producing a multilayer information recording medium the method including: holding a substrate; feeding a resin onto the substrate; and removing the excess resin by moving a squeegee throughout the entire surface of the substrate. The substrate may have a resin-coated region, onto which the resin is to be applied, and a non-resin-coated region, onto which the resin is not to be applied. In this case, the resin-coated region has a smaller contact angle with the resin than the non-resin-coated region. The method for producing a multilayer information recording medium may further include, prior to feeding a resin onto the substrate, subjecting a specified area of the substrate to an oil repellent treatment to increase the contact angle of the specified area with the resin.

Abstract: Methods for selectively coating substrates are disclosed. The methods generally comprise applying acid to a portion of the substrate; coating the substrate with a coating comprising a component that reacts with the acid; and removing the coating from the portion of the substrate to which the acid has been applied.

Abstract: The invention relates to a compound to improve wrinkle resistance in fabrics, comprising: a wrinkle reducing agent, comprising at least one fusible elastomer, and a liquid carrier for carrying said agent and a salt composition for physical crosslinking said fusible elastomer. The invention also relates to a fabric provided with said wrinkle resistance improving compound. The invention further relates to a method of improving wrinkle resistance in a fabric by use of such a compound.

Abstract: Described is a method of treating an article having at its surface oxide or hydroxide moieties, as well as the resulting treated article. The method includes priming the surface of the article by contact with an alkoxysilane in an aprotic organic solvent in the presence of an acid catalyst so that the alkoxysilane reacts with the oxide or hydroxide moieties of the surface. This yields a primed surface. A polymer is then reacted with one or more amino, hydroxyl, carboxylic acid and/or acid anhydride groups on the surface to covalently couple the polymer to the primed surface via the alkoxysilane. The reaction with the polymer is not a free-radical reaction.

Abstract: A bidentate free radical crosslinking initiator binds chemically to silica and silica rich surfaces and enables the free radical based polymerization of various materials such as styrene, divinylbenzene and methylmethacrylate onto silica and silica rich surfaces. When used in connection with aerogels, the resultant crosslinked aerogels exhibit greatly increased strength with only nominal increase in density.

Abstract: The present invention relates to a process for producing a coated product comprising: (a) coating a substrate with a coating material to form a coated substrate; and (b) stabilizing the coated substrate to form the coated product; wherein the operating parameter of substrate-substrate contact and coated substrate-coated substrate contact differs between step a) and step b), such that in step b) the contact is minimized. An apparatus is also provided.

Abstract: A polyglycolic acid resin-based multilayer sheet is formed by laminating a biological polymer substrate sheet and a polyglycolic acid resin with each other via an aqueous adhesive layer. The multilayer sheet is formed of biodegradable materials as a whole and allows recovery of paper, etc. alone, as desired, by preferential decomposition of the resin, thus being suitable as a packaging material stock for food container, etc.

Abstract: A golf ball including a thermoplastic core having an outer diameter of 1.51 inches to 1.59 inches; an outer cover layer; and an inner cover layer between the core and the outer cover layer. The thermoplastic core has been exposed to a gradient-initiating solution comprising a solvent, free radical initiator, and a reactive co-agent comprising a metal salt of an acrylic or methacrylic acid, a mono- or multi-functional acrylate or methacrylate, or having the chemical structure where R=linear, branched, or aromatic C1-C14 and n=1-5, such that the hardness of the outer surface is different than the hardness of the geometric center to define a positive or negative hardness gradient of 5 Shore C or greater.

Abstract: The invention describes a conditioning medium, the use thereof in mediating in the adhesion of a hardenable mixture to a shaped article, and a method of pretreating the surfaces of shaped articles made of filler-containing high-temperature-resistant plastics for the purpose of better adhesion of hardenable mixtures to those shaped articles, and also the method products resulting therefrom, especially conditioned shaped articles.

Abstract: A method of treating a gas phase fluidized bed reactor and a method of polymerizing olefins in a gas phase fluidized bed reactor in the presence of a catalyst prone to cause sheeting by introducing a chromium-containing compound into the reactor and forming a high molecular weight polymer coating on the walls of the reactor. Furthermore, a device for and method of introducing the chromium-containing compound into the fluidized bed reactor at a plurality of locations in proximity to a lower section of a bed section wall of the fluidized bed reactor, and forming a high molecular weight polymer coating on the bed section wall.

Abstract: The present invention is a method and apparatus for remote curing of resin-coated surfaces and articles by means of a vaporous curing agent. The method of the present invention includes the steps: (a) providing a surface of the substrate with a layer of a coating precursor comprising a curable material and a stabilized curing agent that is adapted to react with a gaseous, vaporous or aerosol initiating agent to activate the stabilized curing agent so as to cause the curable material to undergo a curing reaction; (b) subjecting the coating precursor to the gaseous, vaporous or aerosol initiating agent for sufficient time to initiate the curing reaction, and allowing the coating precursor to form a cured coating on the substrate. Another variation of the method of the present invention involves the reversal of the positions of the active compounds utilizing the interaction between the gaseous, vaporous or aerosol curing agent and coating precursor comprising a curable material and initiating agent.

Abstract: The object of the present invention is to provide a golf ball having a paint film which is obtained from an environment-friendly aqueous paint and is excellent in the adhesion and the wear-resistance. The gist of the present invention lies in improving the adhesion between the paint film obtained from the aqueous polyurethane paint and the surface of the golf ball body by first applying the aqueous liquid of the aqueous polycarbodiimide on the surface of the golf ball body, subsequently forming the primer layer comprising the aqueous polycarbodiimide, and then applying the aqueous polyurethane paint to form the paint film, while reducing the amount of solvent used in the aqueous paint for applying on the golf ball by using the polycarbodiimide liquid and the aqueous polyurethane paint.

Abstract: Membranes for filtration by size exclusion are formed from open-ended nanotubes embedded in a polymeric matrix. The matrix forms a layer whose thickness is substantially less than the average length of the nanotubes, allowing the nanotubes to be randomly oriented throughout the matrix while providing channels extending through the layer for the selective passage of molecular species or particles based on size.

Abstract: A method of forming a golf ball is disclosed herein. The method includes placing a golf ball precursor product comprising a thermoplastic polyurethane cover further comprising an isocyante or hydroxyl terminated polybutadiene in an isocyanate solution. The precursor product is then removed and heated to remove solvent. The precursor product may then be subjected to gamma or electron beam irradiation.

Abstract: Smart curing by coupling a catalyst to one or more surface(s) of one or more microelectronic element(s) is generally described. In this regard, according to one example embodiment, a catalyst is coupled to one or more surface(s) of one or more microelectronic element(s) to promote polymerization of an adhesive brought in contact with the catalyst.

Abstract: The present invention is directed to an endless power transmission belt having an elastomeric body and at least one treated textile fabric, the treated textile fabric including a first treatment including a polyamide and an epoxy; and optionally, a second treatment including an RFL adhesive.

Abstract: A golf ball comprising a thermoplastic core having an outer diameter of 1.51 inches to 1.59 inches and having an outer surface and a geometric center, each having a hardness; an outer cover layer; and an inner cover layer disposed between the core and the outer cover layer; wherein the thermoplastic core has been exposed to a gradient-initiating solution comprising a silane having the formula: wherein R? is a non-hydrolysable organofunctional group, X is a hydrolysable group, and n is 0-24, such that the hardness of the outer surface is greater than the hardness of the geometric center to define a positive hardness gradient of 5 Shore C or greater.

Abstract: The invention is a method of treating, restoring or sealing a surface comprising applying an emulsion comprising a latex polymer, a cationic emulsifier, and optionally a recycling agent to the surface to wet the surface and depositing a surface treatment layer on the surface, wherein the depositing step occurs while the surface is wetted. The invention also includes a surface pretreatment composition comprising water, at least one acrylic latex polymer, an aromatic recycling agent, and at least one cationic emulsifier. Furthermore, the invention includes the surface resulting from the application of the emulsion used in the invention and concentrated emulsions for use with the surface treatment composition.

Abstract: An anisotropic film is disclosed in which a line-shaped nanostructure is disposed inside a resin film. Also disclosed is a method of producing an anisotropic film that includes: forming a metal nanostructure on a substrate, forming a resin film that embeds the metal nanostructure, and detaching the resin film from the substrate, wherein the step of forming the metal nanostructure on the substrate includes: at least, forming a coating film on the surface of a template provided on the substrate, the coating film including a metal layer formed by electroless plating; and removing a portion or all of the template while retaining a portion or all of the coating film, or removing a portion of the coating film. Also disclosed is an anisotropic film produced using the method of producing an anisotropic film.

Abstract: A material for forming electroless plate comprising a non-conductive substrate and a catalyst adhering layer provided on the substrate is constituted so that the catalyst adhering layer contains a hydrophilic ionizing radiation curable resin composition, a surface of the catalyst adhering layer shows a contact angle of 60° or smaller to purified water, and preferably the hydrophilic ionizing radiation curable resin composition is in a half-cured state for the portion of the catalyst adhering layer. A material for forming electroless plate shows favorable adhesion for catalyst, and the catalyst adhering layer hardly dissolves into a plating solution in the step of adhering catalyst, the step of development and other steps.

Abstract: Methods for coating articles that include a plastic substrate are disclosed. Certain methods include the steps of (i) applying a composition that includes an adhesion promoting agent to at least a portion of the substrate by a first application technique, (ii) applying a composition that includes an adhesion promoting agent over at least a portion of the composition applied in step (i) by a second application technique that is different from the first application technique, and (iii) applying a protective and decorative coating system over at least a portion of the compositions applied in steps (i) and (ii). Systems for coating articles that include a plastic substrate are also disclosed.

Abstract: The present invention is directed to an optically clear coating made from a composition comprising a triazine ring containing silane resin. The coating is obtained on a metallic substrate and has a unique combination of properties that includes a rigid structure, hydrophobicity/easy-to-clean, adhesion to bright chrome, abrasion resistance and high chemical resistance.

Abstract: The present invention provides an undercoat solution including a radical-polymerizable compound having a phosphoric acid group, an ink-jet recording method including applying an undercoat solution containing a radical-polymerizable compound having a phosphoric acid group; partially curing the applied undercoat solution; and discharging an ink, which is curable by irradiation with an active energy ray, onto the partially cured undercoat solution to record an image, and an ink-jet recording device including an undercoat solution application unit which applies an undercoat solution containing a radical-polymerizable compound having a phosphoric acid group; an undercoat solution curing unit which partially cures the undercoat solution; and an image recording unit which discharges an ink onto the partially cured undercoat solution to record an image.

Abstract: The invention relates to polyfunctional polymer networks comprising an assembly of cross-linked polymer subchains attached to a surface, with each polymer subchain comprising a multitude of identical or different repeating units carrying one or more functional groups which allows an interaction with a sample or probe molecule.

Abstract: The invention relates to aldiminoalkylsilanes ALS which are preparable from the reaction of at least one aminoalkylsilane AS of the formula (I) and at least one aldehyde ALD of the formula (II), and to processes for preparing them. Additionally disclosed are the use of these aldiminoalkylsilanes in compositions comprising amine-reactive compounds, especially polyurethane compositions, and also in adhesion promoter compositions. The aldiminoalkylsilanes ALS and the compositions comprising them have the great advantage that they are low in odor or odorless and also stable on storage.

Abstract: A method for increasing adhesion between a substrate and a polymeric imprintable material during an imprinting procedure. The method includes chemically bonding a plurality of molecules to a surface of a substrate to form a self-assembled monolayer thereon. A monomer is copolymerized with the self-assembled monolayer to form a polymeric imprintable material that is chemically bonded to the self-assembled monolayer. Adhesion between the polymeric imprintable material and the substrate is substantially increased by the self-assembled monolayer.

Abstract: A porous silica particle suitable can be used in zwitterionic high performance liquid chromatography. The particle comprises covalently bound zwitterionic groups grafted through a polymerization reaction. A hydrophilic column packing material suitable for use as a stationary phase in zwitterionic high performance liquid chromatography may comprise porous silica particles. The particles may comprise covalently bound zwitterionic groups. Methods for manufacturing and applying the silica particles exist.

Abstract: Fluoropolymer particles are subjected to high energy treatment so as to change the chemical functionality of the particle surfaces and thereby change the surface characteristics of the particles. These characteristics improve the usefulness of these particles and can make them highly dispersible, even in water. The surface treated fluoropolymer particles are subject to a chemical crosslinking process, or alternatively, are subject to a high energy treatment process, and may optionally be pretreated with a macromolecular chemical species prior to the foregoing processes. The high energy treatment can be used to both surface treat the fluoropolymer particles and in some embodiments, may also cause chain scission of the fluoropolymers to thereby reduce the molecular weight of the fluoropolymer particles. The surface treated fluoropolymer particles can be used to form fluoropolymer coatings on various substrates.

Abstract: A golf ball including a core having a first outer surface; a cover; and an intermediate layer disposed between the core and the cover, the intermediate layer including a non-ionic hydrophobic stiff fluoropolymer having a surface energy of less than about 75 dyne/cm2 and having a second outer surface; wherein at least one of the first or second outer surfaces are treated with an functional silane such that a sufficient number of surface amine, hydroxyl, carboxylic acid, or epoxy groups are available for binding to an adjacent layer.

Abstract: The present invention aims to provide a surface-conductive resin suitable for wiring boards, and the like, a process for forming the resin efficiently, and a wiring board using the surface-conductive resin. The surface-conductive resin according to the present invention is formed by selectively generating reactive groups capable of substitution under alkaline conditions on the resin surface, bringing the reactive groups into contact with an alkaline solution so that part of the reactive groups are substituted by alkali metal ions, bringing the substituted parts by the alkali metal ions into contact with ions of a conductive material so that the alkali metal ions are substituted by ions of the conductive material, and reducing the ions of the conductive material so that the conductive material deposits on the resin surface.

Abstract: An endless power transmission belt including a treated fiber embedded in an elastomeric body, the treated fiber having a first treatment of a polyamide and an epoxy, and optionally, a second treatment including an RFL adhesive.

Abstract: There is provided a cellular phone housing formed with a base made of a resin material by molding, wherein the base is coated with a metal multilayer including a lower metal layer formed on a surface of the base with metal plating and an upper metal layer formed on the lower metal layer with metal plating, and wherein the lower metal layer is made of a first metal which is ductile and the upper metal layer is made of a second metal which is brittle compared with that of the first metal.

Abstract: A method for assembling components on a substrate including the steps of: (a) selectively coating at least a first receptor site of the substrate with a liquid precursor that forms a solid adhesive upon contact with an initiator; (b) providing each of the components with an adhesion surface that has the initiator; and (c) depositing the components on the substrate in a manner that causes a first of the components to contact the at least first receptor site whereupon contact between the initiator and the liquid precursor causes formation of the adhesive which affixes the first compound to the first receptor site. In a preferred embodiment of the invention, the precursor is a liquid monomer and the initiator initiates a polymerization reaction upon contact with the monomer to form a solid polymer.

Abstract: A method for bonding a material to a first substrate surface that includes providing a catalyst at the first substrate surface and then contacting that surface with a material that undergoes a metathesis reaction to bond the material to the first substrate surface. There are two embodiments of this method—a coating process and an adhesive process. In the coating embodiment, the metathesizable material is contacted with the catalyst on the substrate surface so that it undergoes metathesis polymerization to form the coating. The adhesive process includes (a) providing a catalyst at the first substrate surface, (b) providing a metathesizable material between the first substrate surface and the second substrate surface, and (c) contacting the catalyst on the first substrate surface with the metathesizable material so that the metathesizable material undergoes a metathesis reaction and bonds the first substrate surface to the second substrate surface.

Abstract: A treated backing comprises a fabric and a composition that comprises epoxy resin preparable by reaction of epichlorohydrin with at least one of bisphenol A or bisphenol F, polyfunctional (meth)acrylate, dicyandiamide, and photoinitiator.

Abstract: A process to manufacture a surface-conductive resin in a short time at a low cost without damaging the main chain of a polymer is provided. The process for manufacturing surface-conductive resin comprises partially substituting a reactive group in at least one of a resin precursor and a semi-cured resin having at least one reactive group partially substitutable under alkaline condition by an alkali metal ion solution, exchanging the substituted alkali metal ion with the ion of a conductive material in the ionic solution, reducing the ion of the conductive material to deposit the conductive layer, then curing the resin, to get surface-conductive polymer/resin.