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。

公开(公告)号：US20140037519A1

公开(公告)日：2014-02-06

申请号：US14112887

申请日：2011-04-28

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： C22B19/34 ,  C01G9/03

CPC分类号： C22B19/34 ,  B01F3/0807 ,  B01F7/00775 ,  B01F7/00791 ,  B01F15/0203 ,  B01F15/0243 ,  B01F15/0291 ,  B82Y30/00 ,  C01B13/32 ,  C01B13/34 ,  C01G9/02 ,  C01G9/03 ,  C01P2002/01 ,  C01P2002/72 ,  C01P2002/88 ,  C01P2004/04 ,  C01P2004/62 ,  C01P2004/64

摘要： Provided is a method for producing an oxide and/or hydroxide wherein the ratio of oxide and hydroxide has been controlled. The method produces an oxide, a hydroxide, or a mixture thereof, and obtains an oxide and/or a hydroxide wherein the ratio of oxide and hydroxide has been controlled by means of changing a specific condition relating to at least one fluid to be processed introduced between processing surfaces (1, 2) when causing the precipitation of the oxide, hydroxide, or mixture thereof by mixing an basic fluid containing at least one type of basic substance and a fluid containing at least one type of metal or metallic substance as the fluids to be processed between the processing surfaces (1, 2) that are provided facing each other, are able to approach to and separate from each other, and of which at least one rotates relative to the other. The specific condition is at least one condition selected from the group consisting of: the speed of introduction of at least one of the fluids to be processed; and the pH of at least one of the fluids to be processed.

摘要翻译： 提供一种氧化物和/或氢氧化物的制造方法，其中氧化物和氢氧化物的比例已被控制。 该方法产生氧化物，氢氧化物或其混合物，并获得氧化物和/或氢氧化物，其中氧化物和氢氧化物的比例已经通过改变与至少一种待处理流体相关的特定条件来控制 当通过混合含有至少一种碱性物质的碱性流体和含有至少一种类型的金属或金属物质的流体作为流体而使氧化物，氢氧化物或其混合物沉淀时，处理表面（1,2）之间 在彼此面对地设置的处理表面（1,2）之间进行处理，能够彼此接近并分离，并且至少一个相对于另一个旋转。 所述具体条件是选自以下的至少一种条件：至少一种待处理流体的引入速度; 和至少一种要处理的流体的pH。

公开(公告)号：US20130220180A1

公开(公告)日：2013-08-29

申请号：US13883692

申请日：2011-05-20

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

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

IPC分类号： C09C1/62

CPC分类号： C07F3/06 ,  B01D11/0269 ,  B01F3/0861 ,  B82Y30/00 ,  C01P2004/64 ,  C01P2004/82 ,  C07F1/08 ,  C09B67/0017 ,  C09B67/0019 ,  C09B67/0026 ,  C09B67/0035 ,  C09B67/0092 ,  C09C1/0081 ,  C09C1/04 ,  C09C1/627

摘要： The problem addressed by the present invention is to provide; solid solution pigment nanoparticles having a homogeneous solid solution ratio; a method for producing solid solution pigment nanoparticles having a homogeneous solid solution ratio in each primary particle; and a method for controlling the solid solution ratio of solid solution pigment nanoparticles. The solid solution pigment nanoparticles are prepared by precipitating at least two types of pigment by mixing a pigment precipitation solvent and; at least one type of pigment solution wherein at least two types of pigment are dissolved in a solvent: or at least two types of pigment solution wherein at least one type of pigment is dissolved in a solvent. The solid solution pigment nanoparticles are wherein the solid solution ratio of the at least two types of pigment in the primary particles of the precipitated solid solution pigment nanoparticles with respect to the ratio of the at least two types of pigment in the pigment solution mixed with the pigment precipitation solvent having a precision within 25%.

摘要翻译： 本发明提出的问题在于： 具有均匀固溶比的固溶颜料纳米粒子; 一种在一次粒子中具有均匀固溶比的固溶颜料纳米粒子的制造方法; 以及控制固溶颜料纳米粒子的固溶比的方法。 固溶颜料纳米粒子是通过混合颜料沉淀溶剂和至少两种颜料沉淀来制备的; 至少一种类型的颜料溶液，其中至少两种类型的颜料溶解在溶剂中：或至少两种类型的颜料溶液，其中至少一种类型的颜料溶解在溶剂中。 固溶颜料纳米粒子，其中沉淀的固溶颜料纳米颗粒的初级颗粒中的至少两种类型的颜料的固溶比相对于颜料溶液中的至少两种类型的颜料与 颜料沉淀溶剂的精度在25％以内。

公开(公告)号：US09580447B2

公开(公告)日：2017-02-28

申请号：US13989082

申请日：2011-11-22

申请人： Masaki Maekawa ,  Daisuke Honda ,  Masakazu Enomura

发明人： Masaki Maekawa ,  Daisuke Honda ,  Masakazu Enomura

IPC分类号： C07D487/22 ,  C07F3/06 ,  B01D11/02 ,  B01F3/08 ,  C09B67/14 ,  C09B67/22 ,  C09C1/00 ,  C09C1/62 ,  C09C1/04 ,  C07F1/08 ,  B82Y30/00 ,  C09B67/42 ,  C09B67/16 ,  C09B67/50

CPC分类号： C07F3/06 ,  B01D11/0269 ,  B01F3/0861 ,  B82Y30/00 ,  C01P2004/64 ,  C01P2004/82 ,  C07F1/08 ,  C09B67/0017 ,  C09B67/0019 ,  C09B67/0026 ,  C09B67/0035 ,  C09B67/0092 ,  C09C1/0081 ,  C09C1/04 ,  C09C1/627

摘要： The problem addressed by the present invention is to provide a high heat-resistant phthalocyanine. The phthalocyanine is separated by mixing a phthalocyanine separation solvent and a phthalocyanine solution wherein a phthalocyanine starting material is dissolved in a solvent. The phthalocyanine is wherein having high heat resistance, the decomposition temperature of the separated phthalocyanine being at least 10° C. higher than the decomposition temperature of the phthalocyanine starting material. Also, the phthalocyanine solution may be the result of dissolving at least two types of phthalocyanine starting material in the solvent, the separated phthalocyanine being wherein containing a solid solvent of the at least two types of phthalocyanine starting material and by the decomposition temperature of the separated phthalocyanine being at least 10° C. higher than the decomposition temperature of a mixture of at least two types of phthalocyanine separated by mixing the phthalocyanine separation solvent and each of at least two types of phthalocyanine solution resulting from dissolving each of the at least two types of phthalocyanine starting material in a solvent.

摘要翻译： 本发明解决的问题是提供高耐热酞菁。 通过混合酞菁分离溶剂和酞菁溶液将酞菁原料溶解在溶剂中来分离酞菁。 酞菁具有高耐热性，分离的酞菁的分解温度比酞菁起始原料的分解温度高10℃以上。 此外，酞菁溶液可能是将至少两种类型的酞菁原料溶解在溶剂中的结果，其中分离的酞菁含有至少两种类型的酞菁起始原料的固体溶剂和分离的 酞菁比通过混合酞菁分离溶剂和由至少两种类型的酞菁溶液中分离出的至少两种类型的酞菁溶液中的至少两种类型的酞菁溶液的分解温度高至少两种类型的酞菁的分解温度高至少10℃ 的酞菁原料在溶剂中。

公开(公告)号：US09005567B2

公开(公告)日：2015-04-14

申请号：US13818954

申请日：2011-08-26

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： C01B13/14 ,  C01G23/047 ,  C01G23/053 ,  B01F7/00 ,  C01B13/36 ,  C01F5/02 ,  C01F5/20 ,  C01F5/14 ,  C01F17/00 ,  B01D9/00 ,  C01G25/02 ,  C01G1/02 ,  B82Y30/00

CPC分类号： C01G23/0536 ,  B01D9/0009 ,  B01F7/00775 ,  B01F7/00791 ,  B82Y30/00 ,  C01B13/36 ,  C01F5/02 ,  C01F5/14 ,  C01F5/20 ,  C01F17/0043 ,  C01G1/02 ,  C01G23/0532 ,  C01G25/02 ,  C01P2002/54 ,  C01P2004/04 ,  C01P2004/64

摘要： A method for producing isolatable oxide microparticles or hydroxide microparticles using an apparatus that processes a fluid between processing surfaces of processing members that are arranged opposite each other so as to be able to approach to or separate from each other and such that at least one can rotate relative to the other. At least two fluids are mixed and oxide microparticles or hydroxide microparticles are separated, said two fluids including: a fluid containing a microparticle raw material solution comprising a microparticle raw material mixed into a solvent, and a fluid containing a microparticle-separation solution. Immediately thereafter, the following are mixed to obtain isolatable oxide microparticles or hydroxide microparticles: a fluid containing the separated oxide microparticles or hydroxide microparticles; and a fluid containing a microparticle-treatment-substance-containing solution that contains a microparticle-treatment substance that adjusts the dispersibility of the separated oxide microparticles or hydroxide microparticles.

摘要翻译： 一种用于制造可分离氧化物微粒或氢氧化物微粒的方法，该方法使用处理相互相对布置的处理构件的处理表面之间的流体以便能够彼此接近或分离并使得至少一个可旋转的装置 相对于另一个。 混合至少两种流体，分离氧化物微粒或氢氧化物微粒，所述两种流体包括：含有混合在溶剂中的微粒原料的微粒原料溶液的流体和含有微粒分离溶液的流体。 之后，混合以下物质，得到可分离的氧化物微粒或氢氧化物微粒：含有分离的氧化物微粒或氢氧化物微粒的流体; 以及含有含微粒处理物质的溶液的流体，其含有调节分离的氧化物微粒或氢氧化物微粒的分散性的微粒处理物质。

公开(公告)号：US20140301892A1

公开(公告)日：2014-10-09

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

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.

摘要翻译： 本发明解决了提供一种新颖的固体银 - 铜合金的问题。 提供了一种固体银 - 铜合金，其中银 - 铜合金中所含的铜的浓度为0.1-99.94重量％，并且其具有作为其主要成分的非共晶结构，其不包含共晶， 固体银 - 铜合金在室温下。 该银 - 铜合金可以通过将含有银离子和铜离子的流体与含有还原剂的流体混合并从其中分离银 - 铜合金颗粒来制备。 优选的是，将含有银离子和铜离子的流体与含有还原剂的流体混合在形成在彼此面对并且彼此接近并分离的处理表面之间的薄膜流体中，以及 能够使至少一个表面相对于另一个表面旋转。 银 - 铜合金的粒子的直径优选为50nm以下。 该固体银 - 金属合金还可以是除了银和铜之外还包含一种或多种其它金属的固体合金。

公开(公告)号：US20140110884A1

公开(公告)日：2014-04-24

申请号：US14122972

申请日：2012-03-15

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

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

IPC分类号： B29C33/60

CPC分类号： B29C33/60 ,  B01F7/00775 ,  B01F7/00791 ,  B01J19/1887 ,  B29C33/58 ,  C07D471/04

摘要： Provided is a method for preventing a processed material from adhering to a processing surface constituting a flow path for a fluid to be processed, in a fluid processing method for mixing a fluid to be processed in a thin film fluid formed between at least two oppositely arranged processing surfaces capable of being brought together and moved apart, at least one rotating in a relative manner with respect to the other; and for obtaining a processed material. There are used at least two types of fluids to be processed among a raw material fluid including at least one type of raw material substance, and a fluid for processing the raw material substance; the fluids to be processed are mixed in a thin film fluids formed between at least two oppositely arranged processing surfaces (1, 2) capable of being brought together and moved apart, at least one rotating in a relative manner with respect to the other; and a processed material is obtained. The raw material fluid is introduced from the middle of the processing surfaces (1, 2), whereby the raw material substance processed in the space between the processing surfaces (1, 2) is prevented from adhering to the processing surfaces (1, 2).

摘要翻译： 提供了一种用于防止加工材料粘附到构成待处理流体的流动路径的处理表面的方法，用于在形成在至少两个相对布置的至少两个相对布置的薄膜流体之间的薄膜流体中混合待处理流体的流体处理方法 处理表面能够被聚集并移动分开，至少一个相对于另一个以相对方式旋转; 并用于获得加工材料。 在包括至少一种原料物质的原料流体和用于处理原料物质的流体中使用至少两种类型的待处理流体; 要处理的流体被混合在形成在至少两个相对布置的处理表面（1,2）之间的薄膜流体中，所述处理表面能够被聚集并移动分开，至少一个相对于另一个以相对方式旋转; 得到处理后的材料。 原料流体从加工面（1,2）的中部引入，从而防止在处理用面（1,2）之间的空间中加工的原料物质附着在处理用面（1,2）上， 。

公开(公告)号：US20130095322A1

公开(公告)日：2013-04-18

申请号：US13704129

申请日：2011-05-20

申请人： Masaki Maekawa ,  Daisuke Honda ,  Masakazu Enomura

发明人： Masaki Maekawa ,  Daisuke Honda ,  Masakazu Enomura

IPC分类号： C07D403/04 ,  C07D235/06 ,  C07C245/06

CPC分类号： C07D403/04 ,  B82Y40/00 ,  C07C245/06 ,  C07D235/06 ,  C09B67/0014 ,  C09B67/0017 ,  C09B67/0025 ,  C09D11/037 ,  C09D11/322 ,  G02B5/223 ,  G02B2207/113 ,  Y10S977/773 ,  Y10S977/788 ,  Y10S977/834 ,  Y10T428/2982

摘要： Disclosed are: a yellow pigment composition which contains at least one kind of yellow pigment microparticle having excellent transmission characteristics; and a method for producing the yellow pigment microparticle. Specifically disclosed are: a yellow pigment composition which contains at least one kind of yellow pigment microparticle that are characterized in that the difference between the maximum transmittance (Tmax) and the minimum transmittance (Tmin), namely (Tmax−Tmin) is 80% or more in the transmission spectrum at 350-800 nm; and a method for producing the yellow pigment microparticle.

摘要翻译： 公开了一种黄色颜料组合物，其含有至少一种具有优异透射特性的黄色颜料微粒; 以及黄色颜料微粒的制造方法。 具体公开的是：含有至少一种黄色颜料微粒的黄色颜料组合物，其特征在于最大透射率（Tmax）与最小透射率（Tmin）之间的差异即（Tmax-Tmin）为80％或 更多在350-800nm的透射光谱中; 以及黄色颜料微粒的制造方法。

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：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。