Patent application number | Description | Published |
20100055337 | Method for producing substrate for making microarray - There is disclosed a method for producing a substrate for making a microarray, the method comprising: at least, a step of forming a monomolecular film having orientated oxysilanyl groups toward an outmost surface on the substrate; and a step of forming a monomolecular film having orientated amino groups toward an outmost surface on the substrate by applying a solution containing a diamine compound to the oxysilanyl groups. There can be provided a method for producing a substrate for making a microarray in which density and orientation of amino groups orientated toward an outmost surface are controllable, and in addition, there is no delamination of a monomolecular film formed on the substrate. | 03-04-2010 |
20100233827 | METHOD FOR PRODUCING MOLECULE IMMOBILIZING SUBSTRATE, AND MOLECULE IMMOBILIZING SUBSTRATE - There is disclosed a method for producing a molecule immobilizing substrate, comprising at least the steps of:
| 09-16-2010 |
20110123935 | METHOD FOR PRODUCING HOLLOW STRUCTURE - Provided is a fabrication method with which a laminate having a hollow structure can be produced more easily, while enabling to produce a multilayer structure as well. That is, a method for producing a hollow structure, a fabrication method by stacking-up a structural material among fabrication methods of a hollow structure on a substrate, the method including a step of forming a structural material layer on a substrate, a step of forming a pattern on the structural material layer, a step of forming a sacrificial material layer by burying between the patterns with a water-soluble or an alkaline-soluble polymer as the sacrificial material to be buried between the patterns, a step of further laminating a structural material layer and forming a pattern on the structural material layer laminated, and a step of finally removing the sacrificial material after all of lamination is completed. | 05-26-2011 |
Patent application number | Description | Published |
20090057143 | FILM-DEPOSITING TARGET AND PREPARATION OF PHASE SHIFT MASK BLANK - A film-depositing target for use in the manufacture of a halftone phase shift mask blank includes a transparent substrate and a translucent film of one or more layers having a controlled phase and transmittance, at least one layer of the translucent film including silicon, molybdenum and zirconium at the same time as constituent elements, and at least two elements, zirconium and molybdenum in a molar ratio Zr/Mo between 0.05 and 5. | 03-05-2009 |
20090081595 | PATTERNING PROCESS - A pattern is formed through positive/negative reversal by coating a chemically amplified positive resist composition comprising an acid labile group-bearing resin, a photoacid generator, and an organic solvent onto a substrate, prebaking the resist composition, exposing the resist film to high-energy radiation, post-exposure heating, and developing the exposed resist film with an alkaline developer to form a positive pattern; irradiating or heating the positive pattern to facilitate elimination of acid labile groups and crosslinking for improving alkali solubility and imparting solvent resistance; coating a reversal film-forming composition thereon to form a reversal film; and applying an alkaline wet etchant thereto for dissolving away the positive pattern. | 03-26-2009 |
20090208886 | DOUBLE PATTERNING PROCESS - Double patterns are formed by coating a first chemically amplified positive resist composition comprising an acid labile group-bearing resin and a photoacid generator and prebaking to form a resist film on a processable substrate, exposing the resist film to high-energy radiation, PEB, and developing with an alkaline developer to form a first positive resist pattern, treating the first resist pattern to be alkali soluble and solvent resistant, coating a second resist composition and prebaking to form a reversal film, and exposing the reversal film to high-energy radiation, PEB, and developing with an alkaline developer to form a second positive resist pattern. The last development step includes dissolving away the reversed first resist pattern and achieving reversal transfer. | 08-20-2009 |
20090253084 | DOUBLE PATTERNING PROCESS - Double patterns are formed by coating a chemically amplified positive resist composition comprising an acid labile group-bearing resin and a photoacid generator and prebaking to form a resist film on a processable substrate, exposing the resist film to high-energy radiation, PEB, and developing with an alkaline developer to form a positive resist pattern, treating the positive resist pattern to be alkali soluble and solvent resistant, coating a negative resist composition and prebaking to form a reversal film, and exposing the reversal film to high-energy radiation, PEB, and developing with an alkaline developer to form a negative resist pattern. The last development step includes the reversal transfer step of dissolving away the positive resist pattern which has been converted to be soluble in developer. | 10-08-2009 |
20100086878 | PATTERNING PROCESS - A pattern is formed by applying a first positive resist material onto a substrate, heat treating, exposing to high-energy radiation, heat treating, then developing with a developer to form a first resist pattern; applying a protective coating solution comprising a hydrolyzable silicon compound having an amino group onto the first resist pattern and the substrate, heating to form a protective coating; and applying a second positive resist material thereon, heat treating, exposing to high-energy radiation, heat treating, and then developing with a developer to form a second resist pattern. By forming the second pattern in a space portion of the first pattern, this double patterning reduces the pattern pitch to one half. | 04-08-2010 |
Patent application number | Description | Published |
20080233292 | Method for manufacturing substrate for microarray - To provide a method for manufacturing a substrate for microarray which will allow, when a monomolecular film with silicon oxide chains formed on a substrate is used for the immobilization of a target molecule, a chemically amplified type resist film to be directly applied onto the substrate so as to simplify the process and enable fine processing, without causing therewith any problems such as the degradation of resolution and detachment, through more simplified procedures than are possible with the conventional method. | 09-25-2008 |
20080233309 | Method for manufacturing substrate for making microarray - To provide a method for manufacturing a substrate for making a microarray which will ensure the secure immobilization of a material in a site-selective manner at a low cost. The method comprises the steps of: forming a monomolecular film on the surface of a substrate using a silane compound represented by the following general formula (1), | 09-25-2008 |
20080233409 | Method for manufacturing substrate for making microarray - A method for manufacturing a substrate for making a microarray, in which a monomolecular film is not detached when a target molecule is immobilized on the substrate using the monomolecular film having a silicon oxide chain is provided. | 09-25-2008 |
20080233521 | Method for manufacturing substrate for making microarray - A method for manufacturing a substrate for making a microarray wherein a monomolecular film for immobilizing a target molecule can be simply formed position-selectively in manufacture of the substrate for making the microarray is provided. | 09-25-2008 |