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    • 1. 发明授权
    • Process for producing carbon nanotube reinforced composite material
    • 生产碳纳米管增强复合材料的工艺
    • US07485678B2
    • 2009-02-03
    • US11088328
    • 2005-03-23
    • Toshiyuki OhashiKeiichi SatoKazuhiro Miura
    • Toshiyuki OhashiKeiichi SatoKazuhiro Miura
    • C08J3/20C08L101/00C08K7/24
    • C08J5/04B82Y30/00C08J3/2053C08J5/005C08K7/24D01F11/122
    • An object is to provide a process for producing a carbon nanotube (CNT) reinforced composite material, wherein CNT is homogeneously dispersed in a resin to obtain the composite material having an excellent mechanical strength. Hydrophilic CNTs 12 are dispersed in a first solvent 11 to prepare a first dispersion liquid 13. The dispersion liquid 13 and a synthetic resin raw material 15 are added to a second solvent 14 and the resulting mixture is stirred to prepare a third dispersion liquid 17 where a second dispersion liquid 16 in which the synthetic resin raw material 15 is dissolved in the dispersion liquid 13 is dispersed in the solvent 14. The solvents 11 and 14 are removed from the dispersion liquid 17 to obtain a mixture of the hydrophilic CNTs 12 and the synthetic resin raw material 15. The mixture is molded to obtain the composite material in which the synthetic resin is reinforced with the hydrophilic CNTs 12. The second solvent 14 has smaller solubility of the synthetic resin raw material 15 than that of the solvent 11, is substantially not compatible to the solvent 11, and has volume larger than that of the solvent 11. The dispersion liquid 17 is sprayed on a substrate and the solvents 11 and 14 are removed to obtain the mixture and simultaneously to conduct molding of the mixture.
    • 本发明的目的是提供一种碳纳米管(CNT)增强复合材料的制造方法,其中,CNT均匀地分散在树脂中,得到机械强度优异的复合材料。 将亲水性CNT 12分散在第一溶剂11中以制备第一分散液13.将分散液13和合成树脂原料15加入到第二溶剂14中,并将所得混合物搅拌以制备第三分散液17, 将合成树脂原料15溶解在分散液13中的第二分散液16分散在溶剂14中。从分散液17中除去溶剂11和14,得到亲水性CNT 12和 合成树脂原料15.将该混合物成形,得到合成树脂用亲水性CNT 12增强的复合材料。第二溶剂14的合成树脂原料15的溶解度比溶剂11的溶解度小,为 与溶剂11基本上不相容,并且体积大于溶剂11的体积。将分散液17喷涂在基材上,并将溶剂11和14 e去除以获得混合物并同时进行混合物的模制。
    • 2. 发明申请
    • Process for producing carbon nanotube reinforced composite material
    • 生产碳纳米管增强复合材料的工艺
    • US20060058443A1
    • 2006-03-16
    • US11088328
    • 2005-03-23
    • Toshiyuki OhashiKeiichi SatoKazuhiro Miura
    • Toshiyuki OhashiKeiichi SatoKazuhiro Miura
    • C08K3/04
    • C08J5/04B82Y30/00C08J3/2053C08J5/005C08K7/24D01F11/122
    • An object is to provide a process for producing a carbon nanotube (CNT) reinforced composite material, wherein CNT is homogeneously dispersed in a resin to obtain the composite material having an excellent mechanical strength. Hydrophilic CNTs 12 are dispersed in a first solvent 11 to prepare a first dispersion liquid 13. The dispersion liquid 13 and a synthetic resin raw material 15 are added to a second solvent 14 and the resulting mixture is stirred to prepare a third dispersion liquid 17 where a second dispersion liquid 16 in which the synthetic resin raw material 15 is dissolved in the dispersion liquid 13 is dispersed in the solvent 14. The solvents 11 and 14 are removed from the dispersion liquid 17 to obtain a mixture of the hydrophilic CNTs 12 and the synthetic resin raw material 15. The mixture is molded to obtain the composite material in which the synthetic resin is reinforced with the hydrophilic CNTs 12. The second solvent 14 has smaller solubility of the synthetic resin raw material 15 than that of the solvent 11, is substantially not compatible to the solvent 11, and has volume larger than that of the solvent 11. The dispersion liquid 17 is sprayed on a substrate and the solvents 11 and 14 are removed to obtain the mixture and simultaneously to conduct molding of the mixture.
    • 本发明的目的是提供一种碳纳米管(CNT)增强复合材料的制造方法,其中,CNT均匀地分散在树脂中,得到机械强度优异的复合材料。 将亲水性CNT 12分散在第一溶剂11中以制备第一分散液13。 将分散液13和合成树脂原料15加入到第二溶剂14中,搅拌所得混合物以制备第三分散液17,其中合成树脂原料15溶解在分散体中的第二分散液16 液体13分散在溶剂14中。 从分散液17中除去溶剂11和14,得到亲水性碳纳米管12和合成树脂原料15的混合物。将该混合物成形,得到合成树脂用亲水性CNT 12增强的复合材料 第二溶剂14的合成树脂原料15的溶解度小于溶剂11的溶解性,与溶剂11基本上不相容,体积大于溶剂11的体积。将分散液17喷雾到 底物和溶剂11和14被除去以获得混合物并同时进行混合物的模制。
    • 3. 发明授权
    • Green pellet
    • 绿色颗粒
    • US09273262B2
    • 2016-03-01
    • US13701727
    • 2010-06-16
    • Susumu KamikawaHiroshi NakajimaKeiichi SatoKhanhson Pham
    • Susumu KamikawaHiroshi NakajimaKeiichi SatoKhanhson Pham
    • C10L10/00C10L5/32C22B1/24C22B1/245
    • C10L5/32C22B1/2406C22B1/245
    • Provided is a green pellet (10) which comprises: an inner core layer (11) containing an iron oxide-containing starting material, a carbonaceous material for reduction, and a slag-forming agent; and a coating layer (12) disposed so as to encapsulate the surface of the inner core layer (11), wherein the coating layer (12) is formed from a protective layer (12a), which is disposed so as to encapsulate the surface of the inner core layer (11) and which contains an inorganic compound (includes an alkali metal oxide) having a melting point that is 750°C. or greater but less than 1100°C., and a combustion layer (12b ), which is disposed so as to encapsulate the surface of the protective layer (12a) and which contains the carbonaceous material.
    • 本发明提供一种绿色颗粒(10),其包括:含有含氧化铁原料的内芯层(11),还原用碳质材料和成渣剂; 以及设置成封装所述内芯层(11)的表面的涂层(12),其中所述涂层(12)由保护层(12a)形成,所述保护层(12a)被设置为将所述内芯层 内芯层(11),其含有熔点为750℃的无机化合物(包括碱金属氧化物)。 或更大但小于1100℃,以及燃烧层(12b),其被设置为封装保护层(12a)的表面并且含有碳质材料。
    • 4. 发明申请
    • GREEN PELLET
    • 绿色小丸
    • US20130111809A1
    • 2013-05-09
    • US13701727
    • 2010-06-16
    • Susumu KamikawaHiroshi NakajimaKeiichi SatoKhanhson Pham
    • Susumu KamikawaHiroshi NakajimaKeiichi SatoKhanhson Pham
    • C10L5/32
    • C10L5/32C22B1/2406C22B1/245
    • Provided is a green pellet (10) which comprises: an inner core layer (11) containing an iron oxide-containing starting material, a carbonaceous material for reduction, and a slag-forming agent; and a coating layer (12) disposed so as to encapsulate the surface of the inner core layer (11), wherein the coating layer (12) is formed from a protective layer (12a), which is disposed so as to encapsulate the surface of the inner core layer (11) and which contains an inorganic compound (includes an alkali metal oxide) having a melting point that is 750° C. or greater but less than 1100° C., and a combustion layer (12b), which is disposed so as to encapsulate the surface of the protective layer (12a) and which contains the carbonaceous material.
    • 本发明提供一种绿色颗粒(10),其包括:含有含氧化铁原料的内芯层(11),还原用碳质材料和成渣剂; 以及设置成封装所述内芯层(11)的表面的涂层(12),其中所述涂层(12)由保护层(12a)形成,所述保护层(12a)被设置为将所述内芯层 内芯层(11),其含有熔点为750℃以上且小于1100℃的无机化合物(包括碱金属氧化物)和燃烧层(12b),其中, 被设置为封装保护层(12a)的表面并且包含碳质材料。
    • 7. 发明申请
    • Reagent for detecting biopolymer and method for detecting biopolymer
    • 用于检测生物聚合物的试剂和检测生物聚合物的方法
    • US20100004138A1
    • 2010-01-07
    • US12458894
    • 2009-07-27
    • Keiichi SatoSusumu Kuwabata
    • Keiichi SatoSusumu Kuwabata
    • C40B30/10
    • G01N33/54393C12Q1/6837C12Q2563/155
    • Detects the presence of binding between a sample biopolymer and a probe biopolymer and the amount of binding, without modifying the sample biopolymer in any way. The present invention provides a reagent for biopolymer detection comprising semiconductor nanoparticles on which a functional group having a positive or negative charge is exposed, and a method for biopolymer detection which detects the presence of binding between a sample biopolymer and a probe biopolymer and the amount of binding by electrostatically binding a semiconductor nanoparticle on which a functional group having a positive or negative charge is exposed to a negative or positive charge of the sample biopolymer.
    • 检测样品生物聚合物和探针生物聚合物之间的结合的存在以及结合的量,而不以任何方式修饰样品生物聚合物。 本发明提供一种用于生物聚合物检测的试剂,其包含其上暴露有正电荷或负电荷的官能团的半导体纳米颗粒,以及用于检测样品生物聚合物和探针生物聚合物之间的结合的存在的生物聚合物检测方法, 通过静电结合其上具有正或负电荷的官能团暴露于样品生物聚合物的负电荷或正电荷的半导体纳米颗粒的结合。
    • 9. 发明申请
    • Reagent for detecting biopolymer and method for detecting biopolymer
    • 用于检测生物聚合物的试剂和检测生物聚合物的方法
    • US20070059734A1
    • 2007-03-15
    • US11446142
    • 2006-06-05
    • Keiichi SatoSusumu Kuwabata
    • Keiichi SatoSusumu Kuwabata
    • C12Q1/68
    • G01N33/54393C12Q1/6837C12Q2563/155
    • Detects the presence of binding between a sample biopolymer and a probe biopolymer and the amount of binding, without modifying the sample biopolymer in any way. The present invention provides a reagent for biopolymer detection comprising semiconductor nanoparticles on which a functional group having a positive or negative charge is exposed, and a method for biopolymer detection which detects the presence of binding between a sample biopolymer and a probe biopolymer and the amount of binding by electrostatically binding a semiconductor nanoparticle on which a functional group having a positive or negative charge is exposed to a negative or positive charge of the sample biopolymer.
    • 检测样品生物聚合物和探针生物聚合物之间的结合的存在以及结合的量,而不以任何方式修饰样品生物聚合物。 本发明提供一种用于生物聚合物检测的试剂,其包含其上暴露有正电荷或负电荷的官能团的半导体纳米颗粒,以及用于检测样品生物聚合物和探针生物聚合物之间的结合的存在的生物聚合物检测方法, 通过静电结合其上具有正或负电荷的官能团暴露于样品生物聚合物的负电荷或正电荷的半导体纳米颗粒的结合。