Abstract: A process for forming a fluorocarbon polymer film on a substrate is disclosed. A self-assembled monolayer (SAM) containing an initiator for living polymerization such as controlled radical polymerization is formed on the surface of the substrate followed by living polymerization such as controlled radical polymerization of a polymerizable fluorocarbon monomer component.
Abstract: An improved method for forming a self-assembled monolayer on a substrate is disclosed. The method comprises plasma treatment of the substrate prior to formation of the self-assembled monolayer.
Abstract: An electroconductive ink made with metallic nanoparticles is disclosed. The ink contains an organophosphorus acid that increases adhesion between the deposited metallic layer and the substrate to which the metallic layer is applied.
Abstract: Organometallic coatings or films, substrates coated with such films and methods for applying the films to the substrates are disclosed. The organometallic film or coating is derived from a transition metal compound containing both halide ligands and alkoxide ligands. Coated articles comprising polymer substrates and adhered to the substrate surface an organometallic film in which the metal comprises halide and alkoxide ligands are also disclosed.
Abstract: Wipes treated with organometallic compounds used in combination with organic acids in kit form, particularly organophosphorus acid, are disclosed. The kits can be used to treat various surfaces to alter the physical properties of the surfaces.
Type:
Grant
Filed:
July 15, 2010
Date of Patent:
May 21, 2013
Assignee:
Aculon, Inc.
Inventors:
Eric L. Bruner, Eric L. Hanson, Gerald W. Gruber
Abstract: A lead frame and an electronic package having improved adhesion between the lead frame and an encapsulating plastic material is disclosed. The lead frame can be pre plated having an outer layer comprising a precious metal such as palladium or gold to which is adhered a self-assembled monolayer (SAM), such as a SAM derived from an organophosphorus acid. The organophosphorus acid preferably is a mixture in which the organo groups are fluoro substituted hydrocarbons and hydrocarbons containing ethylenically unsaturated groups.
Type:
Grant
Filed:
January 15, 2010
Date of Patent:
April 30, 2013
Assignee:
Aculon, Inc.
Inventors:
Eric L. Hanson, Eric L. Bruner, Jeffrey Gotro
Abstract: A coated article comprising a substrate having a plastic surface and adhered thereto an organometallic film in which the metal has f electron orbitals or is niobium is disclosed. Also disclosed are methods for applying organometallic films to substrates and the organometallic films themselves.
Abstract: Inorganic substrates with a hydrophobic surface layer of a fluorinated material having the following structure are disclosed: where A is an oxygen radical or a chemical bond; n is 1 to 20; Y is H, F, CnH2n+1 or CnF2n+1; X is H or F; b is at least 1, m is 0 to 50, and p is 1 to 20. The fluorinated material can be directly adhered to the inorganic substrate or can be indirectly adhered to the inorganic substrate through an intermediate organometallic coating.
Abstract: A composition and method for forming a hydrophobic coating on a metallic substrate are disclosed. The composition comprises: (a) a perfluorinated acid, (b) a surfactant, (c) an organic solvent, and (d) water. The composition is applied to the metal surface, the organic solvent and water permitted to evaporate and coalesce to form a substantially continuous film that preferably is in the form of a self-assembled monolayer covalently bonded to the surface of the substrate.
Abstract: Organometallic coatings or films, substrates coated with such films and methods for applying the films to the substrates are disclosed. The organometallic film or coating is derived from a transition metal compound containing both halide ligands and alkoxide ligands. Coated articles comprising polymer substrates and adhered to the substrate surface an organometallic film in which the metal comprises halide and alkoxide ligands are also disclosed.
Abstract: Organometallic coatings or films, substrates coated with such films and methods for applying the films to the substrates are disclosed. The organometallic film or coating is derived from a transition metal compound containing both halide ligands and alkoxide ligands. Coated articles comprising polymer substrates and adhered to the substrate surface an organometallic film in which the metal comprises halide and alkoxide ligands are also disclosed.
Abstract: Optical articles such as ophthalmic lenses containing a thin hydrophobic surface layer of a fluorinated material adsorbed thereon are disclosed.
Abstract: Organometallic coatings or films, substrates coated with such films and methods for applying the films to the substrates are disclosed. The organometallic film or coating is derived from a transition metal compound containing both halide ligands and alkoxide ligands. Coated articles comprising polymer substrates and adhered to the substrate surface an organometallic film in which the metal comprises halide and alkoxide ligands are also disclosed.
Abstract: Inorganic substrates with a hydrophobic surface layer of a fluorinated material having the following structure are disclosed: where A is an oxygen radical or a chemical bond; n is 1 to 20; Y is H, F, CnH2n+1 or CnF2n+1; X is H or F; b is at least 1, m is 0 to 50, and p is 1 to 20. The fluorinated material can be directly adhered to the inorganic substrate or can be indirectly adhered to the inorganic substrate through an intermediate organometallic coating.
Abstract: An electroconductive ink made with metallic nanoparticles is disclosed. The ink contains an organophosphorus acid that increases adhesion between the deposited metallic layer and the substrate to which the metallic layer is applied.
Abstract: Inorganic substrates with a hydrophobic surface layer of a fluorinated material having the following structure are disclosed: where A is an oxygen radical or a chemical bond; n is 1 to 20; Y is H, F, CnH2n+1 or CnF2n+1; X is H or F; b is at least 1, m is 0 to 50, and p is 1 to 20. The fluorinated material can be directly adhered to the inorganic substrate or can be indirectly adhered to the inorganic substrate through an intermediate organometallic coating.
Abstract: An organometallic coating deposited from a metal alkoxide composition under conditions sufficient to form a polymeric metal oxide coating with unreacted alkoxide and hydroxyl groups is disclosed. Also disclosed are substrates coated with the organometallic coating and a method for applying the organometallic coating to a substrate.
Type:
Grant
Filed:
October 24, 2006
Date of Patent:
August 2, 2011
Assignee:
Aculon, Inc.
Inventors:
Eric L. Bruner, Eric L. Hanson, Gerald W. Gruber
Abstract: A coated article comprising a substrate having a plastic surface and adhered thereto an organometallic film in which the metal has f electron orbitals or is niobium is disclosed. Also disclosed are methods for applying organometallic films to substrates and the organometallic films themselves.