Patent application number | Description | Published |
20080206443 | ENHANCED BONDING LAYERS ON TITANIUM MATERIALS - The present invention provides a dense-coverage, adherent phosphorous-based coating on the native oxide surface of a material. Disclosed phosphorous-based coatings include phosphate and organo-phosphonate coatings. The present invention also provides further derivatization of the phosphorous-based coatings to yield dense surface coverage of chemically reactive coatings and osteoblast adhesion-promoting and proliferation-promoting coatings on the native oxide surface of a titanium material. | 08-28-2008 |
20090004481 | CARRIER APPLIED COATING LAYERS - Methods for bonding adherent phosphorous-containing coating layers to oxide surfaces on substrates wherein the substrates with oxide surfaces are selected from:
| 01-01-2009 |
20090028792 | NANO-PARTICLE SURFACE MODIFICATION - Oxide, oxysulfide, halide or phosphate host particles with a self-assembled organophosphonate monolayer covalently bonded thereto. Methods for coating the host particles and use of rare earth ion-doped particles in imaging methods and photodynamic therapy methods are also disclosed. | 01-29-2009 |
20090104474 | FUNCTIONALIZED SUBSTRATES AND METHODS OF MAKING SAME - Polymer substrates including adhesion layers for activating the surface of the substrate are provided, thereby allowing the substrate to react with organic, inorganic, metallic and/or organometallic materials. The surface of the polymer substrate is coated with a metal oxide layer that is subjected to conditions adequate to form an oxide adhesion layer. Combining deposition techniques for formation of functionalized polymer surfaces with photolithographic techniques enables spatial control of RGD presentation at the polymer surfaces are achieved with sub-cellular resolution. Surface patterning enables control of cell adhesion location at the surface of the polymer and influences cell shape. Metallization of polymers as described herein provides a means to prepare metal-based electrical circuitry on a variety of flexible substrates. | 04-23-2009 |
20100034742 | MODULAR MONOLAYER COATINGS FOR SELECTIVE ATTACHMENT OF NANOPARTICLES TO BIOMOLECULES - Nanoparticles are functionalized for use as bio-imaging probes using a novel, modular approach. Particle surface modification is based on a phosphonate monolayer platform on which was built a multi-segmented, multi-functional film: the first segment provided hydrolytic stability, the second aqueous suspendability, and the third, selectivity for cell attachment. In vitro imaging experiments visualized nanoparticle—cell surface binding. Peptide-derivatized nano-particles were not displaced from cells by soluble peptide. Methods for coating the host particles and use of rare earth ion-doped particles in imaging methods and photodynamic therapy methods are also disclosed. | 02-11-2010 |
20100215643 | ANTI-INFECTIVE FUNCTIONALIZED SURFACES AND METHODS OF MAKING SAME - Devices are provided which are functionalized to include surface regions having anti-infective agents. Methods are provided for functionalizing various material surfaces to include active surface regions for binding anti-infective agents. Methods are provided by which anti-infective moieties or agents are bonded to functionalized surfaces. | 08-26-2010 |
20110093082 | ENHANCED BONDING LAYERS ON TITANIUM MATERIALS - The present invention provides a dense-coverage, adherent phosphorous-based coating on the native oxide surface of a material. Disclosed phosphorous-based coatings include phosphate and organo-phosphonate coatings. The present invention also provides further derivatization of the phosphorous-based coatings to yield dense surface coverage of chemically reactive coatings and osetoblast adhesion-promoting and proliferation-promoting coatings on the native oxide surface of a titanium material. | 04-21-2011 |
20110110986 | HIGH-YIELD ACTIVATION OF POLYMER SURFACES FOR COVALENT ATTACHMENT OF MOLECULES - Polymer surfaces coated with organometallic layers, wherein the organometallic layers and polymer surfaces have functional groups that react to bond the organometallic layer to the polymer surface with organometallic functional groups remaining unreacted for the subsequent covalent attachment of organic overlayers. Coating methods and coated articles are also disclosed. | 05-12-2011 |
20110303904 | PHOTOVOLTAIC DEVICE AND METHOD OF MAKING SAME - A photovoltaic device and method of manufacturing is disclosed. In one embodiment, the device includes a silicon layer and first and second organic layers. The silicon layer has a first face and a second face. First and second electrodes electrically are coupled to the first and second organic layers. A first heterojunction is formed at a junction between the one of the faces of the silicon layer and the first organic layer. A second heterojunction is formed at a junction between one of the faces of the silicon layer and the second organic layer. The silicon layer may be formed without a p-n junction. At least one organic layer may be configured as an electron-blocking layer or a hole-blocking layer. At least one organic layer may be comprised of phenanthrenequinone (PQ). A passivating layer may be disposed between at least one of the organic layers and the silicon layer. The passivating layer may be organic. At least one of the organic layers may passivate a surface of the silicon layer. The device may also include at least one transparent electrode layer coupled to at least one of the electrodes. | 12-15-2011 |
20120012033 | ENHANCED BONDING LAYERS ON TITANIUM MATERIALS - The present invention provides a dense-coverage, adherent phosphorous-based coating on the native oxide surface of a material. Disclosed phosphorous-based coatings include phosphate and organo-phosphonate coatings. The present invention also provides further derivatization of the phosphorous-based coatings to yield dense surface coverage of chemically reactive coatings and osetoblast adhesion-promoting and proliferation-promoting coatings on the native oxide surface of a titanium material. | 01-19-2012 |
20120104362 | Formation of ordered thin films of organics on metal oxide surfaces - Provided herein is a method for altering an electronic property of a structure comprising an oxide surface or an oxide surface in electronic communication with the structure, the method comprising providing a covalently-bound film comprising at least one organic acid residue on a portion of the oxide surface so that at least one of the following properties of the structure is modified: (a) the charge carrier injection barrier properties; (b) the charge conductivity properties; (c) the charge transport properties; (d) the work function properties; (e) the sub-threshold slope; and (f) the threshold voltage. | 05-03-2012 |
20120114935 | DEVICES WITH MULTIPLE SURFACE FUNCTIONALITY - Phosphorus-based coatings having a plurality of phosphate moieties, a plurality of phosphonate moieties, or both, covalently bonded to an oxide surface of an implantable substrate exhibiting one or more of the following characteristics: (a) the surface phosphorus-containing group density of the coated regions of the substrate is at least about 0.1 nmol/cm | 05-10-2012 |
20120121661 | DEVICES WITH MULTIPLE SURFACE FUNCTIONALITY - Phosphorus-based coatings having a plurality of phosphate moieties, a plurality of phosphonate moieties, or both, covalently bonded to an oxide surface of an implantable substrate exhibiting one or more of the following characteristics: (a) the surface phosphorus-containing group density of the coated regions of the substrate is at least about 0.1 nmol/cm | 05-17-2012 |
20120208758 | COMPOSITION FOR THE ATTACHMENT OF IMPLANTS TO COLLAGEN OR OTHER COMPONENTS OF BIOLOGICAL TISSUE - The present invention relates to a novel composition comprising an implant, scaffold or construct bound to a biological or chemical moiety. The bound moiety has the ability to bind to a component of the extracellular matrix of biological tissue, allowing the implant to be bound to the biological tissue in a short period of time after implantation. The invention also relates to the use and manufacture of this novel composition, as well as a novel use for the protein CNA. | 08-16-2012 |
20140088007 | COMPOSITION FOR THE ATTACHMENT OF IMPLANTS TO COLLAGEN OR OTHER COMPONENTS OF BIOLOGICAL TISSUE - The present invention relates to a novel composition comprising an implant, scaffold or construct bound to a biological or chemical moiety. The bound moiety has the ability to bind to a component of the extracellular matrix of biological tissue, allowing the implant to be bound to the biological tissue in a short period of time after implantation. The invention also relates to the use and manufacture of this novel composition, as well as a novel use for the protein CNA. | 03-27-2014 |
20140330392 | SCAFFOLDS FOR TISSUES AND USES THEREOF - The present invention provides tissue scaffolds, methods of generating such scaffolds, and methods of use of such scaffolds to generate aligned and functional tissues for use in methods including regenerative medicine, wound repair, and transplantation. | 11-06-2014 |
20150034159 | Hole-blocking TiO2/Silicon Heterojunction for Silicon Photovoltaics - A hole-blocking silicon/titanium-oxide heterojunction for silicon photovoltaic devices and methods of forming are disclosed. The electronic device includes at least two electrodes having a current path between the two electrodes. The electronic device also includes a heterojunction formed of a titanium-oxide layer deposited over a Si layer and being disposed in the current path. The heterojunction is configured to function as a hole blocker. The first electrode may be electrically coupled to the Si layer and a second electrode may be electrically coupled to the titanium-oxide layer. The device may also include a PN junction disposed in the Si layer, in the current path. The device may also include an electron-blocking heterojunction on silicon in the current path. | 02-05-2015 |