| Patent Number |
Title Of Patent |
Date Issued |
| 5804252 |
Water- and oil repellent substrate and method of treatment |
September 8, 1998 |
| A durable and extremely water- and oil repellent ultra thin film is formed on the surface of a substates such as glass, ceramics, fabrics, fur and cloth by a dehydrochlorination reaction between a functional group such as a hydroxyl group or an imino group on the surface of the substrate |
| 5612387 |
Nonlinear optical material and its method of manufacture |
March 18, 1997 |
| A new nonlinear organic optical material having a high Second Harmonic Generation capability and a method of manufacturing the same is disclosed. Energy-beam sensitive monomer molecules having large molecular dipole-moments are sandwiched between two facing orientation films formed o |
| 5589235 |
Nonlinear optical material and its method of manufacture |
December 31, 1996 |
| A new nonlinear organic optical material having a high Second Harmonic Generation capability and a method of manufacturing the same is disclosed. Energy-beam sensitive monomer molecules having large molecular dipole-moments are sandwiched between two facing orientation films formed o |
| 5580605 |
Transparent substrate and method of manufacturing the same |
December 3, 1996 |
| At least one monomolecule film is formed on a transparent substrate surface directly or via a protective film. The monomolecule film is formed with chemical coupling of chlorosilane surface active compound, for example, of the formula:where m is an integer of from 1 to 15, n is an intege |
| 5545255 |
Finishing agent and method of using the same |
August 13, 1996 |
| An ultra thin, water and oil repelling and durable overcoat is easily formed on a substrate surface via covalent bonding by applying a finishing agent of the invention, comprising a chemically adsorptive compound with a chlorosilyl group and a nonaqueous viscous liquid or solid medium, o |
| 5466487 |
Chemically adsorbed film and method of manufacturing the same |
November 14, 1995 |
| A chemically adsorbed monomolecular or a laminated monomolecular film comprising a monomolecular film formed on said substrate surface by covalent S-bonds is disclosed. For example, the covalent S-bond is selected of a group consisting of --(S.dbd.O)-- and --(O.dbd.S.dbd.O)--. A meth |
| 5466487 |
Chemically adsorbed film and method of manufacturing the same |
November 14, 1995 |
| A chemically adsorbed monomolecular or a laminated monomolecular film comprising a monomolecular film formed on said substrate surface by covalent S-bonds is disclosed. For example, the covalent S-bond is selected of a group consisting of --(S.dbd.O)-- and --(O.dbd.S.dbd.O)--. A meth |
| 5461083 |
Formed plastic and method of manufacturing the same |
October 24, 1995 |
| A foamed plastic manufactured by foaming a mixture of a resin and a volatile polymerizable foaming agent, wherein the pressure in the foams of the foamed plastic is less than atmospheric pressure, is disclosed. Further, a foamed plastic manufactured by hermetically sealing with an ai |
| 5437894 |
Method of manufacturing a water- and oil-repelling film having surface irregularities |
August 1, 1995 |
| A water- and oil-repelling adsorbing film formed on a material having active hydrogen such as hydroxyl group, imino group and amino group at the surface. This film is a chemically adsorbed film having surface irregularities exceeding 10 nanometers. It is directly or indirectly covale |
| 5436033 |
Method of manufacturing a polymer ultra thin film electret |
July 25, 1995 |
| The invention concerns an ultra thin polymer film electret comprising a polymer and a substrate having a surface electric charge, wherein a side chain of the polymer and the substrate are physically or chemically bonded. A method of manufacturing an ultra thin polymer film electret c |
| 5425988 |
Recording and reproducing device which includes a protective film and a monomolecular fluoro org |
June 20, 1995 |
| A recording and reproducing device is provided. The device comprises a recording medium, a head giving and receiving recording signals to or from the recording medium, and a mechanism section and a circuit section giving and receiving the recording signals, wherein at least one protectiv |
| 5338579 |
Method of manufacturing a chemically adsorbed film |
August 16, 1994 |
| A method of manufacturing a chemically adsorbed film, which can efficiently provide a water and oil repelling and anti-contaminating ultra thin film with uniform thickness by spraying a solution comprising a chemical adsorbent on a substrate surface having active hydrogen groups in a dry |
| 5324548 |
Method for making optical recording mediums |
June 28, 1994 |
| A method for making an optical recording medium having an optically responsive polydiacetylene monomolecular film or monomolecular built-up film is provided. In the method, a substrate having a hydrophilic surface is immersed in a solution, in organic solvent, of a substance containing a |
| 5196227 |
Method for making optical recording mediums |
March 23, 1993 |
| A method for making an optical recording medium having an optically responsive polydiacetylene monomolecular film or monomolecular built-up film is provided. In the method, a substrate having a hydrophilic surface is immersed in a solution, in organic solvent, of a substance containing a |
| 5093154 |
Process for preparing a monomolecular built-up film |
March 3, 1992 |
| A process for producing a monomolecular built-up film of monomolecular layers of a silane surfactant is described. In the process, the silane surfactant is chemically adsorbed on a hydrophilic surface of a substrate and is subjected to irradiation of a high energy beam or plasma treatmen |
| 5035782 |
Method for the formation of monomolecular adsorption films or built-up films of monomolecular la |
July 30, 1991 |
| A method for the formation of monomolecular adsorption films of a silane compound having a diacetylene bond is described. The silane compound is chemically adsorbed on a substrate through .dbd.SiO-- bonds and the resultant film is significantly reduced in number of defects such as pi |
| 4849323 |
Pattern forming method using contrast enhanced material |
July 18, 1989 |
| Disclosed is a pattern forming method using contrast enhanced material for enhancing the resolution and contrast when forming patterns in fabrication of semiconductors or the like. This pattern forming method comprises a step of applying a contrast enhanced material for pattern forming o |
| 4698113 |
Method of curing photocurable and heat-curable compositions and a method of adhering members to |
October 6, 1987 |
| A method of curing photocurable and heat-curable compositions for adhering optical elements to each other which consist of, as major components, a polyfunctional acrylate and a polythiol, a radical type photocuring initiator, a radical type heat-curing initiator and a stabilizer and a |
| 4560457 |
Adhesives for bonding optical elements |
December 24, 1985 |
| Adhesives adapted especially for bonding optical elements and consisting of, as major components, a polyfunctional acrylate and a polythiol, a radical generating photoinitiator, a radical generating heatactivated-curing initiator and a stabilizer against premature onset of curing. |
| 4467026 |
Process for drawing patterns with extremely fine features in the production of VLSI, LSI and IC |
August 21, 1984 |
| In the patterning process in the fabrication of VLSI, LSI and IC systems, the electron beam is used to write a pattern over a resist layer on a wafer, but the resist layer is exposed by X-rays. More particularly, a finely focused beam of electrons writes a pattern on a thin metal film |
| 4447720 |
Solid-state image pickup element and process for fabricating the same |
May 8, 1984 |
| A highly sensitive and high-density picture element solid-state image pickup element. The image pickup element includes a picture element portion formed on a semiconductor wafer, a driving circuit for driving the picture element portion, a photoconductive layer formed on the picture |
