Abstract: The present invention provides a method for the selective placement of carbon nanotubes on a particular surface. In particular, the present invention provides a method in which self-assembled monolayers formed on an unpatterned or patterned metal oxide surface are used to attract or repel carbon nanotubes from a dispersion containing the same. In accordance with the present invention, the carbon nanotubes can be attracted to the self-assembled monolayers so as to be attached to the metal oxide surface, or they can be repelled by the self-assembled monolayers bonding to a predetermined surface other than the metal oxide surface containing the self-assembled monolayers.
Type:
Grant
Filed:
May 19, 2008
Date of Patent:
May 31, 2011
Assignee:
International Business Machines Corporation
Inventors:
Ali Afzali-Ardakani, James Bowler Hannon
Abstract: The present invention includes a method and a composition to form a layer on a substrate having uniform etch characteristics. To that end, the method includes controlling variations in the characteristics of a solid layer, such etch characteristics over the area of the solid layer as a function of the relative rates of evaporation of the liquid components that comprise the composition from which the solid layer is formed.
Type:
Grant
Filed:
August 16, 2004
Date of Patent:
May 10, 2011
Assignee:
Molecular Imprints, Inc.
Inventors:
Frank Y. Xu, Christopher J. Mackay, Pankaj B. Lad, Ian M. McMackin, Van N. Truskett, Wesley D. Martin, Edward B. Fletcher, David C. Wang, Nicholas A. Stacey, Michael P. C. Watts
Abstract: Methods are provided for surface modifying a hydrophobic polymer substrate to increase wettability comprising the steps of pre-treating the hydrophobic polymer substrate with a radio frequency (RF)-generated first plasma and a RF-generated second plasma wherein the first plasma and the second plasma are applied sequentially, coating the hydrophobic polymer substrate with a hydrophilic coating; and polymerizing the hydrophilic coating on the hydrophobic polymer substrate by exposure to a RF-generated third plasma.
Type:
Grant
Filed:
April 30, 2007
Date of Patent:
April 12, 2011
Inventors:
Kathryn J. Kitching, Catherine E. Taylor
Abstract: Methods of attaching a ligand to a surface are described that include contacting a surface with a substrate containing an amphiphilic comb polymer. The substrate is configured to provide a pattern of the amphiphilic comb polymer on a selected region of the surface. The substrate can be separated from the surface leaving the amphiphilic comb polymer on the selected region of the surface, thus providing a selected region of the surface having amphiphilic comb polymer on it. A ligand can then be deposited on the surface such that the selected region of the surface having the amphiphilic comb polymer is substantially free of the ligand.
Abstract: A surface modified biomedical device is provided comprising a biomedical device having a coating on at least a portion thereof, the coating comprising a polymer or copolymer having one or more repeating units of the formula: wherein R independently is a C2-C20 hydrocarbon radical and n is an integer of 2 to 5000.
Abstract: The present invention relates to a coating assembly and methods that employ the coating assembly to control the thickness of therapeutic or other coatings delivered to a medical device during a coating process. In one embodiment the coating assembly may include a coating plate having a coating transfer surface and a shoulder having a first height, a mandrel moveable over the coating transfer surface, and a coating dispenser positioned in fluid communication with the coating transfer surface. The invention also includes a method of coating a medical device. This method may include placing a medical device on a mandrel, dispensing coating onto a coating transfer surface of a coating plate, moving the mandrel and the medical device over the coating transfer surface of the coating plate so that coating resident on the coating transfer surface transfers to an exposed surface of the medical device, and removing the medical device from the mandrel.
Type:
Grant
Filed:
September 20, 2007
Date of Patent:
March 29, 2011
Assignee:
Boston Scientific Scimed, Inc.
Inventors:
Tim O'Connor, Dave McMorrow, Gabriel Sobrino, Liam Ward, Noel Hynes
Abstract: Devices and methods for the controlled release or exposure of reservoir contents, and methods of manufacture thereof, are provided. The device includes a reservoir cap formed of an electrically conductive material, which prevents the reservoir contents from passing out from the device and prevents exposure of the reservoir contents to molecules outside of the device; an electrical input lead connected to said reservoir cap; and an electrical output lead connected to said reservoir cap, such that upon application of an electrical current through the reservoir cap, via the input lead and output lead, the reservoir cap ruptures to release or expose the reservoir contents. The reservoir contents can comprise a release system containing drug molecules for release or can comprise a secondary device, such as a sensor. The controlled release system may be incorporated into an implantable drug delivery or biosensing device.
Type:
Grant
Filed:
October 27, 2005
Date of Patent:
March 22, 2011
Assignee:
MicroCHIPS, Inc.
Inventors:
Scott A. Uhland, Benjamin F. Polito, John M. Maloney, Norman F. Sheppard, Jr., Stephen J. Herman, Barry Y. Yomtov
Abstract: According to an aspect of the present invention a method is provided which a porous medical article is contacted with a solution that contains a therapeutic agent and a solvent in order to load the pores of the medical article, after which the solvent is sublimated.
Type:
Grant
Filed:
August 31, 2007
Date of Patent:
March 8, 2011
Assignee:
Boston Scientific Scimed, Inc.
Inventors:
David McMorrow, Anthony Malone, Tim O'Connor, Barry J. O'Brien
Abstract: A method and system for treating a dielectric film on a plurality of substrates includes disposing the plurality of substrates in a batch processing system, the dielectric film on the plurality of substrates having a dielectric constant value less than the dielectric constant of SiO2. The plurality of substrates are heated, and a treating compound comprising a CxHy containing compound, wherein x and y represent integers greater than or equal to unity is introduced to the process system. A plasma is formed and at least one surface of the dielectric film on said plurality of substrates is exposed to the plasma.
Abstract: Various embodiments of methods and devices for coating stents are described herein.
Type:
Grant
Filed:
June 15, 2007
Date of Patent:
March 1, 2011
Assignee:
Abbott Cardiovascular Systems Inc.
Inventors:
David Rego, Kurt Kilchenmann, Sang joon Park, Mark Haight, Anthony S. Andreacchi, Yung-Ming Chen, Arnoldo M. Currlin, Antonio Garcia, Jason Van Sciver, Thomas David Esbeck, Bryan D. Glenn, Patrick A. Tuohy, Richard Baillargeon, Edward P. Garcia, Steven E. Lehner
Abstract: A system and method for using gradient nanotopography to increase mammalian cell attachment and cell confinement on surfaces. A surface platform consisting of a thin film of gold possessing a gradient of topography on the surface and self-assembled monolayers of alkanethiols presenting desired functional groups is formed. A gradient in the chemical properties is induced in the terminal groups of the monolayer because of the continuous increase in the surface area and the anisotropy of gold film structure. The gradient nanotopraphy provides simultaneous control of two key properties, the presentation of the terminal functional groups and a continuous increase in the surface density of functional groups on the surface. This control provides for drug screening assays using adherent cell-based experiments.
Type:
Grant
Filed:
November 21, 2006
Date of Patent:
February 22, 2011
Assignee:
Syracuse University
Inventors:
Yan Yeung Luk, Karen A. Simon, Erik A. Burton, Prerli Sejwal, YongBin Han
Abstract: Methods for functionalizing the surface of nanomaterials to improve processing and product manufacturing. These methods are useful for oxides, nitrides, carbides, borides, metals, alloys, chalcogenides, and other compositions.
Abstract: An implantable device coating system method includes providing the implantable device having an exterior surface, the exterior surface including a plurality of pores in fluidic communication with an ambient environment. The method further includes applying a coating including a therapeutic solution to the exterior surface and the pores, and vibrating the implantable device with a sonic wave for a predetermined time using at least one predetermined frequency.
Abstract: A process for making an endoprosthesis comprising: (a) applying a powder that includes a metal hydride to a surface of a metal endoprosthesis, or precursor tubing thereof; and (b) exposing the powder to a heat source to melt the powder and liberate hydrogen gas, thereby forming a porous coating on the surface of the endoprosthesis, or precursor tubing thereof.
Abstract: We have developed an improved vapor-phase deposition method and apparatus for the application of layers and coatings on various substrates. The method and apparatus are useful in the fabrication of biotechnologically functional devices, Bio-MEMS devices, and in the fabrication of microfluidic devices for biological applications. In one important embodiment, oxide coatings providing hydrophilicity or oxide/polyethylene glycol coatings providing hydrophilicity can be deposited by the present method, over the interior surfaces of small wells in a plastic micro-plate in order to increase the hydrophilicity of these wells. Filling these channels with a precise amount of liquid consistently can be very difficult. This prevents a water-based sample from beading up and creating bubbles, so that well can fill accurately and completely, and alleviates spillage into other wells which causes contamination.
Type:
Grant
Filed:
January 31, 2005
Date of Patent:
February 1, 2011
Assignee:
Applied Microstructures, Inc.
Inventors:
Boris Kobrin, Jeffrey D. Chinn, Romuald Nowak, Richard C. Yi
Abstract: A process for electrostatically coating a stent on a catheter. A conductor which is permanently affixed to the catheter contacts a stent mounted on the catheter. Conductive ink applied to the catheter may be used as the conductor. An electrical charge is applied to the conductor. The stent is then coated using an electrostatic coating process.
Abstract: A technique for manufacturing a device that includes a deposit of getter material on a support involves treating the support on which the getter material is formed with a caustic fluid. An aspect of the technique is that it may clean and/or chemically activate the getter material without substantial damage to the getter material. The getter material may be formed on an internal wall of the device.
Type:
Grant
Filed:
November 12, 2004
Date of Patent:
January 18, 2011
Assignee:
Saes Getters, S.p.A.
Inventors:
Marco Moraja, Marco Amiotti, Costanza Dragoni, Massimo Palladino