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    • 1. 发明申请
    • ORGANIC ELECTROLUMINESCENCE DEVICE AND PRODUCTION METHOD THEREOF
    • 有机电致发光器件及其制造方法
    • US20110253990A1
    • 2011-10-20
    • US13142083
    • 2010-01-14
    • Wataru IshikawaTadashi Sekiguchi
    • Wataru IshikawaTadashi Sekiguchi
    • H01L51/56H01L51/50
    • H01L51/0003H01L51/0072H01L51/0084H01L51/0085H01L51/0086H01L51/0087H01L51/0088H01L51/50
    • Disclosed is an organic electroluminescence device which can be stably produced by a wet process and exhibits enhanced external quantum efficiency and reduced coating unevenness and a production method thereof. Specifically, disclosed is a method of producing the organic electroluminescence device comprising at least a layer, which is formed by a wet process comprising of coating a solution of an organic material dissolved in a solvent to form a liquid layer, followed by removal of the solvent by blowing air to form the layer, wherein the relative drying rate of the solvent to butyl acetate is from 1 to 1000, (based on the drying rate of butyl acetate being 100), the thickness of the formed liquid layer is from 1 to 100 μm, a air-blowing rate is from 0.1 to 5 m/s and the time between completion of coating and start of blowing is from 0 to 60 sec.
    • 公开了一种可以通过湿法稳定地制造并且表现出增强的外部量子效率和减小的涂层不均匀性的有机电致发光器件及其制造方法。 具体地说,公开了一种生产有机电致发光器件的方法,该器件至少包括通过湿法形成的层,该层包括涂覆溶解在溶剂中的有机材料的溶液以形成液体层,然后除去溶剂 通过吹送空气形成层,其中溶剂与乙酸丁酯的相对干燥速度为1〜1000(基于乙酸丁酯的干燥率为100),所形成的液体层的厚度为1〜100 μm,吹气速度为0.1〜5m / s,涂布开始和吹制开始之间的时间为0〜60秒。
    • 4. 发明授权
    • Polarization analyzer
    • 极化分析仪
    • US07265834B2
    • 2007-09-04
    • US10537314
    • 2003-07-14
    • Shojiro KawakamiTakashi SatoTakayuki KawashimaWataru Ishikawa
    • Shojiro KawakamiTakashi SatoTakayuki KawashimaWataru Ishikawa
    • G01J4/00
    • G02B5/3041G02B5/3033G02B27/288
    • A thin polarizer array and a wavelength plate array that are composed of micro regions having different optical axis directions and wavelength characteristics and having a high extinction ratio and a low insertion loss, and a polarization analyzer using them. An array of micro periodic grooves is formed on a substrate, with the directions changed from one region to another. An alternating multilayer film formed by bias sputtering alternating a layer of high refractive index material such as Si or Ta2O5 and a layer of low refractive index material such as SiO2. By selecting a condition that each layer maintains its periodic projecting/recessed shape, an array of photonic crystal polarizer is formed. By mounting this array of photonic crystal polarizer in a photodetector array, a polarization analyzer that is small, has no movable part, has a small number of components, and enables high-precision measurement is constituted.
    • 由具有不同的光轴方向和波长特性的微区域构成的具有高消光比和低插入损耗的微偏振器阵列和波长板阵列以及使用它们的偏振分析器。 在基板上形成微周期槽的阵列,其方向从一个区域改变到另一个区域。 通过偏置溅射交替形成的交替多层膜,其交替使用诸如Si或Ta 2 O 5的高折射率材料层和低折射率材料层,例如SiO 2, SUB> 2 。 通过选择每层保持其周期性突出/凹陷形状的条件,形成光子晶体偏振器的阵列。 通过将该光子晶体偏振片阵列安装在光电检测器阵列中,小型的不具有可动部分的偏振分析器具有少量的部件,并且能够构成高精度测量。
    • 5. 发明授权
    • Image recording method and image recording device
    • 图像记录方法和图像记录装置
    • US07108366B2
    • 2006-09-19
    • US10836003
    • 2004-04-29
    • Wataru Ishikawa
    • Wataru Ishikawa
    • B41J2/01
    • B41J11/002
    • An image recording method includes: jetting light curable ink on a recording medium by a recording head of an inkjet type; irradiating light from a light source toward the recording medium; and curing the light curable ink to form an image, wherein at least one of light intensity of the light source and light curability of the light curable ink is adjusted so as to make viscosity increase rate of the light curable ink not less than 20% after the light source irradiates the light directly toward the light curable ink for a first predetermined time period; and light intensity at a jetted surface of the recording head is adjusted so as to make the viscosity increase rate of the light curable ink from 5% to 30% after light having the light intensity at the jetted surface is irradiated toward the light curable ink for a second predetermined time period.
    • 一种图像记录方法包括:通过喷墨型记录头将光固化油墨喷射在记录介质上; 将来自光源的光朝向记录介质照射; 并固化光固化油墨以形成图像,其中调节光源的光强度和光固化油墨的光固化性中的至少一种,以使得可光固化油墨的粘度增加率不低于20% 光源在第一预定时间内将光直接照射到可光固化墨水; 并且调节记录头的喷射表面处的光强度,使得将具有在喷射表面的光强度的光照射到可光固化油墨的光固化油墨的粘度增加率为5%至30% 第二预定时间段。
    • 6. 发明授权
    • Image forming method, printed matter and image recording apparatus
    • 图像形成方法,印刷物和图像记录装置
    • US07059710B2
    • 2006-06-13
    • US10726742
    • 2003-12-03
    • Wataru Ishikawa
    • Wataru Ishikawa
    • B41J2/045B41J2/04B41J2/05B41J2/01
    • B41J2/04525B41J2/04581B41J2/04588B41J2/2056B41J2/2117B41J2/51B41J11/002B41J2202/10
    • A method for forming an ink-jet image, comprising the steps of: (a) ejecting droplets of an ink through ink-nozzles of an ink-jet head of an ink-jet recording apparatus, the ink-jet recording apparatus being provided with a driving signal generator producing: (i) an expansion pulse which expands a volume of the ink chamber by deforming the actuator contained in the dividing wall of the ink chamber; (ii) a shrinkage pulse which compresses the volume of the ink chamber by deforming the actuator; and (iii) a predetermined quiescent period between the expansion pulse and the shrinkage pulse, the quiescent period being regulated so as to decrease the cross talk among the ink chambers adjacent to each other, (b) hardening the droplets of the ink ejected on the recording media via irradiation of an actinic ray, wherein the ink contains a radical polymerization monomer and a radical initiator.
    • 一种用于形成喷墨图像的方法,包括以下步骤:(a)通过喷墨记录装置的喷墨头的墨喷嘴喷射油墨,喷墨记录装置设有 驱动信号发生器,其产生:(i)膨胀脉冲,其通过使包含在墨室的分隔壁中的致动器变形来扩大墨室的体积; (ii)通过使致动器变形来压缩墨水室的体积的收缩脉冲; 和(iii)膨胀脉冲与收缩脉冲之间的预定静止期间,调节​​静止期,以减少彼此相邻的油墨室之间的串扰,(b)使喷出的油墨的液滴硬化 通过光化射线照射记录介质,其中油墨含有自由基聚合单体和自由基引发剂。
    • 8. 发明授权
    • Dual thin-film magnetic head with side surface terminals
    • 双面磁头,带侧面端​​子
    • US5293288A
    • 1994-03-08
    • US34597
    • 1993-03-22
    • Wataru IshikawaTakashi Watanabe
    • Wataru IshikawaTakashi Watanabe
    • G11B5/31G11B5/60
    • G11B5/3103
    • A thin-film magnetic head comprises a floating slider provided with two pairs of recesses, a pair of thin-film magnetic head elements formed between the two pairs of recesses on the end surface of the floating slider, and terminals formed by filling up the recesses of the floating slider with a conductive material. Each terminal has a front surface exposed in the end surface of the floating slider, and a side surface exposed in the side surface of the floating slider adjacent to the end surface of the same. Lead wires are connected respectively to the side surfaces of the terminals exposed respectively in the side surfaces of the floating slider. The thin-film magnetic head is one of a plurality of thin-film magnetic heads obtained by dicing a substrate on which a plurality of pairs of thin-film magnetic head elements are formed into a plurality of floating sliders each carrying a pair of thin-film magnetic head elements. When the substrate is diced, the side surfaces of the terminals are exposed in the side surfaces of each floating slider.
    • 薄膜磁头包括设置有两对凹槽的浮动滑块,在浮动滑块的端面上的两对凹槽之间形成的一对薄膜磁头元件,以及通过填充凹部形成的端子 的浮动滑块与导电材料。 每个端子具有暴露在浮动滑动件的端表面中的前表面,以及暴露在浮动滑块的侧表面中的与其端表面相邻的侧表面。 引线分别连接到分别在浮动滑块的侧表面中露出的端子的侧表面。 薄膜磁头是通过将形成有多对薄膜磁头元件的基板切割成多个浮动滑块而获得的多个薄膜磁头中的一个,每个浮动滑块都带有一对薄膜磁头, 胶片磁头元素。 当基板被切割时,端子的侧表面暴露在每个浮动滑块的侧表面中。
    • 9. 发明授权
    • Thermal head
    • 热头
    • US4841120A
    • 1989-06-20
    • US95269
    • 1987-09-11
    • Masamori YaginoMasato TaniguchiYoshitomo ItoToshimitsu TakanoWataru IshikawaSadatoshi KikuchiTetsuo Endo
    • Masamori YaginoMasato TaniguchiYoshitomo ItoToshimitsu TakanoWataru IshikawaSadatoshi KikuchiTetsuo Endo
    • B41J2/335B41J2/345
    • B41J2/345B41J2/3357
    • A thermal head which is reduced in restriction in dimension of a substrate to allow reduction in size thereof and wherein the contacting characteristic of the substrate with a platen is improved to assure a high quality of printing. The thermal head has a heat generating resistor element and a driving circuit therefor both formed on a substrate, and a suppporting heat radiating member joined to one face of the substrate on which the resistor element is located. The substrate is ground at least at a portion of the opposite face thereof corresponding to a heat generating portion of the resistor element to make the thickness smaller than the other portion of the substrate. Thermal recording is effected by the ground portion of the substrate. The substrate may be made of a transparent or translucent inexpensive material such as quartz or glass. Various forms of supporting heat radiating plate to be incorporated in the thermal printers are also disclosed.
    • 一种热敏头,其减小了基板的尺寸限制以允许其尺寸减小,并且其中基板与压板的接触特性得到改善以确保高质量的印刷。 热敏头具有形成在基板上的发热电阻元件及其驱动电路,以及连接到电阻元件所在的基板一面的支撑散热构件。 至少在其对应于电阻元件的发热部分的相对面的一部分上研磨衬底以使其厚度小于衬底的另一部分。 热记录由衬底的接地部分实现。 衬底可以由诸如石英或玻璃的透明或半透明廉价材料制成。 还公开了要并入热敏打印机中的各种形式的支撑散热板。
    • 10. 发明授权
    • Heat-transfer image-receiving element
    • 传热图像接收元件
    • US4840870A
    • 1989-06-20
    • US170063
    • 1988-03-14
    • Masaru IwagakiToyoaki MasukawaTawara KomamuraWataru IshikawaKimie Hoshino
    • Masaru IwagakiToyoaki MasukawaTawara KomamuraWataru IshikawaKimie Hoshino
    • B41M5/382B41M5/50B41M5/52G03C7/00G03C8/40
    • G03C7/00B41M5/52B41M2205/02B41M2205/06B41M5/5227B41M5/5254B41M5/5272Y10S428/913Y10S428/914Y10S430/132
    • In a heat-transfer image-receiving element adapted to have a superposed relation, at least during a heat-transfer processing, with a heat-transfer element containing a heat-transferable dye donator, wherein said heat-transfer image-receiving element comprises at least one of compounds having the following general Formula (I), (II) or (III) and at least one of compounds having the following general Formula (IV) ##STR1## wherein R.sub.1, R.sub.1 ', R.sub.3, R.sub.3 ' and R.sub.5 each is a hydrogen atom, alkyl, alkenyl, cycloalkyl, phenyl, naphthyl, heterocyclic, acyl, alkylsulfonyl, arylsulfonyl or aralkylsulfonyl group; R.sub.2, R.sub.4, R.sub.4 ', R.sub.6 and R.sub.7 each is a hydrogen atom, a halogen atom, or a monovalent organic group, l is an integer of from 1 to 4, q is an integer of from 1 to 6, m, n and p each is an integer of from 1 to 3, provided if the l, m, n, p and q each is an integer of not less than 2, the R.sub.2, R.sub.4, R.sub.4 ', R.sub.6 and R.sub.7 are allowed to be either the same as or different from one another; R.sub.8, R.sub.9 and R.sub.10 each is a hydrogen atom, a halogen atom, alkyl, alkenyl, cycloalkyl, phenyl, naphthyl, heterocyclic, acyl, amino, alkylsulfonyl, arylsulfonyl or aralkylsulfonyl group, and a, b and c each is an integer of from 1 to 4, R.sub.8, R.sub.9 and R.sub.10 are allowed to be either the same as or different from one another. The heat-transfer image receiving element renders a dye image formed in the color heat-diffusion transfer process stable particularly under a light irradiation condition and excellent in stability against discoloration by light and heat.
    • 在适于具有叠加关系的热传递图像接收元件中,至少在传热处理期间,使用含有可热转印染料供体的传热元件,其中所述热传递图像接收元件包括 至少一种具有下列通式(I),(II)或(III)的化合物和至少一种具有以下通式(Ⅳ)的化合物:式(I) 式(III)其中R1,R1',R3,R3'和R5各自为氢原子,烷基,烯基,环烷基,苯基,萘基,杂环,酰基,烷基磺酰基,芳基磺酰基或芳烷基磺酰基 ; R2,R4,R4',R6和R7各自为氢原子,卤素原子或一价有机基团,l为1〜4的整数,q为1〜6的整数,m,n和 p各自为1〜3的整数,如果l,m,n,p和q各自为不小于2的整数,则R2,R4,R4',R6和R7被允许为 相同或不同; R 8,R 9和R 10各自为氢原子,卤素原子,烷基,烯基,环烷基,苯基,萘基,杂环,酰基,氨基,烷基磺酰基,芳基磺酰基或芳烷基磺酰基,a,b和c各自为 1至4,R8,R9和R10被允许彼此相同或不同。 传热图像接收元件使得在彩色热扩散转印过程中形成的染料图像特别在光照条件下稳定,并且对于光和热的变色的稳定性优异。