公开(公告)号：US10006105B2

公开(公告)日：2018-06-26

申请号：US14355855

申请日：2012-08-16

申请人： Masaki Maekawa ,  Daisuke Honda ,  Masakazu Enomura

发明人： Masaki Maekawa ,  Daisuke Honda ,  Masakazu Enomura

IPC分类号： C22C9/00 ,  B22F9/24 ,  B22F1/00 ,  B82Y30/00

CPC分类号： C22C9/00 ,  B22F1/0018 ,  B22F9/24 ,  B82Y30/00

摘要： The present invention addresses the problem of providing a novel, solid silver-copper alloy. Provided is a solid silver-copper alloy in which the concentration of copper contained in the silver-copper alloy is 0.1-99.94 wt %, and which has, as the principal constituent thereof, a non-eutectic structure which does not contain a eutectic when the solid silver-copper alloy is at room temperature. This silver-copper alloy can be produced by mixing a fluid containing silver ions and copper ions with a fluid containing a reducing agent, and separating silver-copper alloy particles therefrom. It is preferable to mix the fluid containing the silver ions and copper ions with the fluid containing the reducing agent in a thin-film fluid formed between processing surfaces arranged so as to face one another, capable of approaching toward and separating from one another, and capable of having at least one surface rotate relative to the other. The diameter of the particles of the silver-copper alloy is preferably 50 nm or less. This solid silver-metal alloy may also be a solid alloy comprising one or more types of other metals in addition to silver and copper.

公开(公告)号：US09764250B2

公开(公告)日：2017-09-19

申请号：US14125030

申请日：2012-05-23

申请人： Kaeko Araki ,  Daisuke Honda ,  Masakazu Enomura

发明人： Kaeko Araki ,  Daisuke Honda ,  Masakazu Enomura

IPC分类号： B01D11/04 ,  B01F15/02 ,  B01F7/00

CPC分类号： B01D11/04 ,  B01D11/0461 ,  B01D11/0465 ,  B01D11/0476 ,  B01D11/048 ,  B01F7/00758 ,  B01F7/00775 ,  B01F7/00791 ,  B01F15/0243

摘要： The problem addressed by the present invention is providing a fluid processing method including extraction that can extract material to be extracted continuously with high efficiency. In a thin film fluid formed between at least two processing surfaces (1, 2) disposed facing each other so as to be able to approach to and separate from each other such that at least one rotates relative to the other, a fluid processing that extracts at least one kind of material to be extracted in at least one kind of the extraction solvent that can extract that material to be extracted is carried out. In addition, the fluid containing at least one kind of material to be extracted and a fluid for extraction that contains the at least one kind of extraction solvent are mixed in the thin film fluid formed between the at least two processing surfaces (1, 2) disposed facing each other so as to be able to approach to and separate from each other such that at least one rotates relative to the other, and a fluid processing process that extracts the at least one kind of material to be extracted into the at least one kind of extraction solvent is carried out.

公开(公告)号：US09539642B2

公开(公告)日：2017-01-10

申请号：US14123051

申请日：2012-03-15

申请人： Masaki Maekawa ,  Kaeko Araki ,  Daisuke Honda ,  Masakazu Enomura

发明人： Masaki Maekawa ,  Kaeko Araki ,  Daisuke Honda ,  Masakazu Enomura

IPC分类号： B01J13/00 ,  B22F9/16 ,  B01F7/00 ,  B01J19/18 ,  C01G23/08 ,  C07D471/04 ,  B01F3/12

CPC分类号： B22F9/16 ,  B01F3/1221 ,  B01F7/00775 ,  B01F7/00791 ,  B01J19/1887 ,  B22F1/0018 ,  B22F1/0022 ,  B22F1/0025 ,  B22F9/24 ,  B22F2998/10 ,  B22F2999/00 ,  C01G23/053 ,  C01G23/08 ,  C01P2004/04 ,  C07D471/04 ,  C22C5/06

摘要： A method for increasing the production of fine particles is provided. The method uses at least two types of fluids to be processed, a raw material fluid containing at least one type of fine particle raw material and a fluid for treating the fine particle raw material. Fine particles are obtained by mixing the fluids to be processed in a thin film fluid formed between at least two processing surfaces which are disposed to be faced with each other so as to be able to approach to and separate from each other, at least one of which rotates relative to the other. The production of the fine particles is increased by introducing the raw material fluid from the centers of the processing surfaces.

摘要翻译： 提供了增加细颗粒生产的方法。 该方法使用至少两种类型的待处理流体，含有至少一种类型的细粒原料的原料流体和用于处理细粒原料的流体。 通过将待处理的流体混合在形成在至少两个处理表面之间的薄膜流体中，所述薄膜流体被设置成彼此面对，以便能够彼此接近和分离，所述薄膜流体中的至少一个 其相对于另一个旋转。 通过从处理表面的中心引入原料流体来增加细颗粒的生产。

公开(公告)号：US09487658B2

公开(公告)日：2016-11-08

申请号：US13701162

申请日：2011-03-04

申请人： Masaki Maekawa ,  Daisuke Honda ,  Masakazu Enomura

发明人： Masaki Maekawa ,  Daisuke Honda ,  Masakazu Enomura

IPC分类号： C09B47/04 ,  C09B67/50 ,  C09B67/16 ,  B82B1/00

CPC分类号： C09B67/0026 ,  C09B67/0019 ,  Y10T428/2982

摘要： Provided are: a copper phthalocyanine pigment which contains at least one kind of copper phthalocyanine microparticles whose crystal type is any of two kinds of β- and γ-type crystals and that exhibits, in a region of 380 nm to 780 nm, an absorption spectrum shape extremely similar to that of α-form copper phthalocyanine microparticles; and a process for the production of the copper phthalocyanine microparticles. Also provided are: a copper phthalocyanine pigment which contains at least one kind of coper phthalocyanine microparticles whose crystal type is any of two kinds of β- and γ-type crystals and that exhibits a wavelength (λ-max) of shorter than 478 nm in the transmission spectrum in a region of 380 nm to 780 nm, said wavelength (λ-max) being a wavelength at which the maximum transmittance appears; and a process for the production of the copper phthalocyanine microparticles.

摘要翻译： 提供：铜酞菁颜料，其含有晶体类型为两种β-和γ型晶体中的任一种的至少一种铜酞菁微粒，并且在380nm至780nm的区域中显示吸收光谱 形状与α型铜酞菁微粒非常相似; 以及生产铜酞菁微粒的方法。 还提供：铜酞菁颜料，其含有晶体类型为两种β型和γ型晶体中的任何一种的表面波长（λ-max）小于478nm的至少一种辅助酞菁微粒， 在380nm至780nm的区域中的透射光谱，所述波长（λ-max）是出现最大透射率的波长; 以及生产铜酞菁微粒的方法。

公开(公告)号：US09468891B2

公开(公告)日：2016-10-18

申请号：US14005506

申请日：2012-03-21

申请人： Jun Kuraki ,  Kaeko Araki ,  Masaki Maekawa ,  Daisuke Honda ,  Masakazu Enomura

发明人： Jun Kuraki ,  Kaeko Araki ,  Masaki Maekawa ,  Daisuke Honda ,  Masakazu Enomura

IPC分类号： B01F3/22 ,  B01F7/00 ,  B01J19/10 ,  B01J19/18 ,  B01J19/20 ,  B82Y30/00 ,  C01G9/02 ,  B01F13/10

CPC分类号： B01F3/22 ,  B01F7/00775 ,  B01F7/00791 ,  B01F13/1027 ,  B01F2215/0481 ,  B01J19/10 ,  B01J19/1806 ,  B01J19/1875 ,  B01J19/1887 ,  B01J19/20 ,  B01J2219/00779 ,  B82Y30/00 ,  C01G9/02 ,  C01P2004/54 ,  C01P2004/64

摘要： The problem addressed by the present invention is to provide a method for producing microparticles. Provided is a method that is for producing microparticles and that is characterized by containing at least the following two steps: (I) a step for preparing a microparticle starting material solution by dissolving at least one type of microparticle starting material in a solvent using high speed stirring or ultrasonic waves, and (II) a step for precipitating microparticles by mixing the microparticle starting material solution and at least one type of precipitation solvent for precipitating the microparticle starting material in a thin film fluid formed between at least two processing surfaces that are disposed facing each other, are able to approach/separate from each other, and of which at least one rotates relative to the others.

摘要翻译： 本发明提出的问题在于提供一种微粒的制造方法。 本发明提供一种制造微粒的方法，其特征在于至少包含以下两个步骤：（I）通过使用高速将至少一种微粒起始材料溶解在溶剂中来制备微粒原料溶液的步骤 搅拌或超声波，以及（II）通过将微粒原料溶液与至少一种沉淀溶剂混合，使微粒起始材料沉淀在形成在至少两个处理表面之间的薄膜流体中沉淀微粒的步骤 彼此面对，能够彼此接近/分离，并且其中至少一个相对于其他旋转。

公开(公告)号：US09062315B2

公开(公告)日：2015-06-23

申请号：US13877225

申请日：2011-09-30

申请人： Keishi Sakaguchi ,  Rie Hamaguchi ,  Takanori Matsuda ,  Makoto Ito ,  Naoki Nagano ,  Masahiro Hayashi ,  Daisuke Honda ,  Yuji Okita ,  Shinichi Sugimoto

发明人： Keishi Sakaguchi ,  Rie Hamaguchi ,  Takanori Matsuda ,  Makoto Ito ,  Naoki Nagano ,  Masahiro Hayashi ,  Daisuke Honda ,  Yuji Okita ,  Shinichi Sugimoto

IPC分类号： C12N15/79 ,  C12N15/89 ,  C12N9/02 ,  C12N9/10 ,  C12P7/64 ,  C12N15/52

CPC分类号： C12N15/79 ,  C12N9/0071 ,  C12N9/0083 ,  C12N9/1029 ,  C12N15/113 ,  C12N15/52 ,  C12N15/895 ,  C12N2310/11 ,  C12N2310/14 ,  C12P7/6409 ,  C12P7/6427 ,  C12P7/6472 ,  C12Y114/19001 ,  C12Y114/19006 ,  C12Y203/01119

摘要： To provide a transformation method for producing a stramenopile organism having an improved unsaturated fatty acid production capability by disrupting a gene of the stramenopile organism or inhibiting the expression of the gene in a genetically engineering manner. [Solution] A method for transforming a stramenopile organism, which comprises disrupting a gene of the stramenopile organism or inhibiting the expression of the gene in a genetically engineering manner, and which is characterized in that the stramenopile organism is selected from Thraustochytrium aureum, Parietichytrium sarkarianum, Thraustochytrium roseum and Parietichytrium sp. and the gene to be disrupted or of which the expression is to be inhibited is a gene associated with the biosynthesis of a fatty acid.

摘要翻译： 提供通过以遗传工程方式破坏该层状生物体的基因或抑制该基因的表达来生产具有改善的不饱和脂肪酸生产能力的前烧石生物的转化方法。 [解决方案]一种转基因生物的方法，其包括以基因工程方式破坏所述地精生物体的基因或抑制所述基因的表达，其特征在于，所述前列腺生物体选自甲状腺破囊壶菌（Salisochytrium aureum），，鱼（Parietichytrium sarkarianum） ，玫瑰色胸，和Parietichytrium sp。 并且待破坏的基因或其表达被抑制的基因是与脂肪酸的生物合成相关的基因。

公开(公告)号：US20130343979A1

公开(公告)日：2013-12-26

申请号：US14004117

申请日：2011-03-23

申请人： Jun Kuraki ,  Masaki Maekawa ,  Daisuke Honda ,  Masakazu Enomura

发明人： Jun Kuraki ,  Masaki Maekawa ,  Daisuke Honda ,  Masakazu Enomura

IPC分类号： C01B33/113 ,  C01G9/02

CPC分类号： C01B33/113 ,  B01F7/00775 ,  B01F7/00791 ,  B01J14/00 ,  B01J19/1887 ,  C01B9/00 ,  C01B13/14 ,  C01B13/16 ,  C01B13/36 ,  C01B19/00 ,  C01B21/00 ,  C01B32/00 ,  C01B33/00 ,  C01B33/193 ,  C01B35/00 ,  C01G9/02 ,  C01G23/003 ,  C01P2002/72 ,  C01P2004/04 ,  C04B35/62625 ,  C04B2235/3284 ,  C04B2235/3418 ,  C04B2235/5445 ,  C04B2235/5454 ,  C04B2235/76

摘要： Provided is a more suitable method for producing ceramic microparticles. The present invention uses at least two types of fluids to be processed; at least one of the fluids to be processed is a fluid containing a ceramic starting material liquid that mixes and/or dissolves a ceramic starting material in a basic solvent; of the fluids aside from the ceramic starting material liquid, at least one of the fluids to be processed is a fluid containing a solvent for precipitating ceramic microparticles; and ceramic microparticles are precipitated by mixing the fluid containing the ceramic starting material liquid and the fluid containing the solvent for precipitating ceramic microparticles within a thin film fluid formed between at least two surfaces (1,2) for processing that are provided facing each other, are able to approach and separate each other, and of which one is able to rotate with respect to the other. Ceramic microparticles having as increased crystallinity are obtained by mixing the fluid containing the precipitated ceramic microparticles precipitate and a fluid containing an acidic substance.

摘要翻译： 提供了一种更合适的陶瓷微粒的制造方法。 本发明使用至少两种待处理的流体; 要处理的流体中的至少一种是含有在碱性溶剂中混合和/或溶解陶瓷原料的陶瓷原料液的流体; 的待处理流体中的至少一种是含有用于沉淀陶瓷微粒的溶剂的流体; 并且通过将包含陶瓷原料液的流体和含有溶剂的流体混合在陶瓷微粒沉淀物内形成的至少两个彼此面对的表面（1,2）之间形成的薄膜流体中来沉淀陶瓷微粒， 能够彼此接近和分离，并且能够相对于另一个旋转。 通过混合含有沉淀的陶瓷微粒沉淀物的液体和含有酸性物质的流体，获得结晶度增加的陶瓷微粒。

公开(公告)号：US08390640B2

公开(公告)日：2013-03-05

申请号：US12615394

申请日：2009-11-10

申请人： Hiroshi Aoki ,  Akira Kitazume ,  Daisuke Honda ,  Naoya Oka ,  Yuki Nagano ,  Hiroyuki Kurabayashi ,  Akihiro Shiraishi ,  Toshiaki Ohyama

发明人： Hiroshi Aoki ,  Akira Kitazume ,  Daisuke Honda ,  Naoya Oka ,  Yuki Nagano ,  Hiroyuki Kurabayashi ,  Akihiro Shiraishi ,  Toshiaki Ohyama

IPC分类号： G09G3/30 ,  G09G5/00 ,  G09G5/10 ,  H04N5/44 ,  H04N5/445 ,  H04N5/57 ,  H04N5/14 ,  H04N1/46 ,  H04N1/40 ,  G06K9/40 ,  G06K9/20

CPC分类号： H04N9/73

摘要： A television device structured to automatically adjust the color temperature on the display screen in accordance with the viewing environment includes an external light detection unit or an optical sensor for detecting the illuminance and the tint of the ambient light, and an image quality control unit or a microcomputer for adjusting quality of the video image to be displayed on the display panel. The image quality control unit adjusts the color temperature of the video image to be displayed in accordance with the illuminance value and the tint value detected by the external light detection unit. The optical sensor includes an illuminance sensor for mainly detecting the visible light, and an infrared sensor for mainly detecting the infrared light. The illuminance value and the tint value are obtained based on the output values of those two sensors.

摘要翻译： 构造成根据观看环境自动调节显示屏上的色温的电视装置包括用于检测环境光的照度和色调的外部光检测单元或光学传感器，以及图像质量控制单元 用于调整要显示在显示面板上的视频图像的质量的微型计算机。 图像质量控制单元根据由外部光检测单元检测的照度值和色调值来调整要显示的视频图像的色温。 光学传感器包括用于主要检测可见光的照度传感器和用于主要检测红外光的红外传感器。 基于这两个传感器的输出值获得照度值和色调值。

公开(公告)号：US20100079049A1

公开(公告)日：2010-04-01

申请号：US12425010

申请日：2009-04-16

申请人： Hidenao Kubota ,  Kazuhiro Kaizaki ,  Daisuke Honda

发明人： Hidenao Kubota ,  Kazuhiro Kaizaki ,  Daisuke Honda

IPC分类号： H01J61/40

CPC分类号： H01J11/12 ,  H01J11/44 ,  H01J2211/444 ,  H01J2211/446

摘要： A plasma display device refines contrast, suppresses moiré, and maintains mechanical strength against shocks from the outside of the device. A front panel is disposed at a distance D from the front of the plasma display panel. A contrast refine film in which light absorption parts and light transmission parts extending in the same direction as scanning electrodes, discharge sustaining electrodes, and the like, which are formed on the plasma display panel, are formed with a certain pitch is stuck to the front substrate of the plasma display panel. This helps to refine contrast and suppress moiré below a proper level. An antireflection film, a color tone film, an electromagnetic radiation preventing film, a near-infrared absorption film, and the like are all disposed in the front panel. This helps to prevent deterioration of each optical film during operation.

摘要翻译： 等离子体显示装置提高对比度，抑制莫尔条纹，并保持来自装置外部的冲击的机械强度。 前面板与等离子体显示面板的前方距离D设置。 将形成在等离子体显示面板上的与扫描电极，放电维持电极等相同的方向延伸的光吸收部分和透光部分以一定间距形成的对比精加工薄片粘贴在前面 基板等离子体显示面板。 这有助于改善对比度，并将莫尔条纹抑制在适当的水平之下。 防反射膜，色调膜，电磁辐射防止膜，近红外线吸收膜等均设置在前面板中。 这有助于防止在操作期间每个光学膜的劣化。

公开(公告)号：US20140121336A1

公开(公告)日：2014-05-01

申请号：US14123051

申请日：2012-03-15

申请人： Masaki Maekawa ,  Kaeko Araki ,  Daisuke Honda ,  Masakazu Enomura

发明人： Masaki Maekawa ,  Kaeko Araki ,  Daisuke Honda ,  Masakazu Enomura

IPC分类号： B22F9/16 ,  C07D471/04 ,  C01G23/08

CPC分类号： B22F9/16 ,  B01F3/1221 ,  B01F7/00775 ,  B01F7/00791 ,  B01J19/1887 ,  B22F1/0018 ,  B22F1/0022 ,  B22F1/0025 ,  B22F9/24 ,  B22F2998/10 ,  B22F2999/00 ,  C01G23/053 ,  C01G23/08 ,  C01P2004/04 ,  C07D471/04 ,  C22C5/06

摘要： The present invention addresses the problem of providing a new method for increasing the production of fine particles. Using at least two types of fluids to be processed, a raw material fluid containing at least one type of fine particle raw material and a fluid for treating the fine particle raw material, fine particles are obtained by mixing the fluids to be processed in a thin film fluid formed between at least two processing surfaces which are disposed to be faced with each other so as to be able to approach to and separate from each other, at least one of which rotates relative to the other. At this time, the production of the fine particles is increased by introducing the raw material fluid from the centers of the processing surfaces.

摘要翻译： 本发明解决了提供用于增加细颗粒的生产的新方法的问题。 使用至少两种类型的待处理流体，含有至少一种类型的细粒原料的原料流体和用于处理细粒原料的流体，通过将待处理的流体以薄的 在至少两个处理表面之间形成的薄膜流体，所述至少两个处理表面被设置成彼此面对，以便能够彼此接近和分离，其中至少一个相对于另一个旋转。 此时，通过从处理用面的中心引入原料液，能够提高微粒的制造。