Masujima
Masahiro Masujima, Kawasaki-Shi JP
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20090023102 | POSITIVE RESIST COMPOSITION FOR FORMING THICK-FILM RESIST, THICK-FILM RESIST LAMINATE, AND METHOD OF FORMING RESIST PATTERN - A positive resist composition for forming a thick-film resist having a film thickness of 1 to 15 μm, the composition comprising: a resin component (A) that includes a polymer compound (A1), which has a weight average molecular weight of 20,000 to 50,000, and includes a structural unit (a1) derived from a hydroxystyrene and a structural unit (a2) derived from an acrylate ester containing an acid dissociable, dissolution inhibiting group, an acid generator component (B) that generates acid upon exposure and includes an onium salt-based acid generator having an anion moiety represented by general formula (I): R | 01-22-2009 |
20100248164 | CLEANING LIQUID FOR LITHOGRAPHY AND METHOD FOR FORMING A RESIST PATTERN USING THE SAME - Provided are a cleaning liquid for lithography capable of suppressing occurrence of CD shift without inhibiting the effect of preventing pattern collapse by a surfactant, and a pattern formation method using the cleaning liquid for lithography. A cleaning liquid for lithography containing (A) an anionic surfactant, (B) an amine compound, and (C) water. In the cleaning liquid for lithography of the present invention, the anionic surfactant and the amine compound form a salt in the cleaning liquid for lithography, and thus penetration of the anionic surfactant into a resist film can be suppressed. Therefore, even when a method for forming a resist pattern is performed, the resist film is not dissolved by using the cleaning liquid for lithography of the present invention, whereby occurrence of CD shift can be efficiently suppressed. | 09-30-2010 |
Masahiro Masujima, Kawasaki JP
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20090253077 | Anti-reflection film forming material, and method for forming resist pattern using the same - The anti-reflection film forming material according to the present invention includes (a) a water soluble resin having a vinyl acetate constituent unit, and (b) a compound having a constituent unit represented by the following general formula. | 10-08-2009 |
Masahiro Masujima, Wako-Shi JP
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20090064960 | ONE-PART SEAL MATERIAL COMPOSITION CURABLE AT AMBIENT TEMPERATURE, AND INTAKE MANIFOLD USING THE SAME - A one-part seal material composition curable at ambient temperature is provided that can meet all the requirements of: adhesiveness to weight saving materials; strength which can endure use in automotive parts; viscosity appropriate for enhancing efficiency of mass production; and fuel vapor sealing properties, and an intake manifold using the same. In a one-part seal material composition curable at ambient temperature which is hardened by a atmospheric moisture, (A) a polyacrylate having the end blocked with a hydrolyzable silyl group; and (B) a plasticizer are included, in which the content of the component (B) is set to be 15 parts by mass to 35 parts by mass per 100 parts by mass of the component (A). Furthermore, an intake manifold is produced using the composition. | 03-12-2009 |
Tsutomu Masujima, Hiroshima-Shi JP
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20100317118 | CAPTURING OF CELL FLUID AND ANALYSIS OF ITS COMPONENTS UNDER OBSERVATION OF CELLS AND INSTRUMENTS FOR THE CELL FLUID CAPTURING AND THE ANALYSIS - The invention provide the method to enable the molecular detections of cellular fluid of at least a single cell easily and rapidly and clarify the dynamics of life phenomena and molecular mechanisms very rapidly by conducting simultaneous observations of cellular morphological dynamism. At the same time, it provides the method of exploring active molecules. Even in case that the target is a single cell, the cellular fluid is directly sucked by the capillary tip and the fluid is subjected to the analysis directly. By performing this method under the observation of the cell with image-magnifying scopes, such as a microscope, the cellular fluid is sucked and captured by the nanospray ionization capillary tip even if the target is a single cell and the trapped sample is subjected to the mass spectrometer by nano-spraying the sample solution directly after addition of the ionization supporting solvent into the tip, and then the molecular components in the cellular fluid is detected. The detected molecular peaks specific to a certain state are identified by performing differential analysis or t-test between the data groups of cells in different states. | 12-16-2010 |
20140315237 | CAPTURING OF CELL FLUID AND ANALYSIS OF ITS COMPONENTS UNDER OBSERVATION OF CELLS AND INSTRUMENTS FOR THE CELL FLUID CAPTURING AND THE ANALYSIS - A method captures cellular components from a single cell and performs mass spectrometry on the components. The method includes inserting a nanospray ionization capillary tip into a specific region of the cell under observation with a microscope. The nanospray ionization capillary tip can include a filament in the interior. The method further includes capturing the cellular components of the specific region of the cell into the opening of the nanospray ionization capillary tip and keeping the components at the nanospray ionization capillary tip, supplying an ionization supporting solvent from a back-end of the nanospray ionization capillary tip, applying an electric field between a sample inlet of a mass spectrometer and the nanospray ionization capillary tip, whereby nanospray ionization to the cellular components is implemented, and performing the mass spectrometry on the cellular components captured at the nanospray ionization capillary tip. | 10-23-2014 |
Tsutomu Masujima, Hiroshima JP
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20120256082 | PHASE SHIFT RF ION TRAP DEVICE - A novel ion trap made of at least two ion guides sets separated by a gap and each guide consists of three or more rods-like multipole carrying radio frequency (RF) voltages with delayed phases. The injected ions are axially or orthogonally, contained by pulsed DC and/or RF voltages. When the ions translational energy is damped due to collisions with a low-pressurized inert gas, the 3-D RF field in the gap, which is created by the special rod and electricity arrangement, can trap the ions and compact them in a dense ion cloud. Because the ions are trapped in the small gap, new ions can be injected and the trapping cycle can be repeated many times before the ion ejection. The ions are ejected from the gap orthogonally or axially. This ion trap is useful for mass spectrometry and beam physics, specifically for high efficient ion accumulation and focusing the ions in a small space. | 10-11-2012 |