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    • 1. 发明授权
    • Stable concentrated metal colloids and methods of making same
    • 稳定的浓缩金属胶体及其制备方法
    • US07718710B2
    • 2010-05-18
    • US11378057
    • 2006-03-17
    • Cheng ZhangSukesh ParasherMichael A. RueterBing Zhou
    • Cheng ZhangSukesh ParasherMichael A. RueterBing Zhou
    • C09K3/00B01J31/00B01J23/00
    • B01J23/40B01J13/0034B01J13/0039B01J13/0043B01J35/0013B22F1/0022B22F9/26B22F2999/00B82Y30/00B22F2201/013
    • A method for manufacturing stable concentrated colloids containing metal nanoparticles in which the colloid is stabilized by adding a base. This allows the metal particles to be formed in higher concentration without forming larger agglomerates and/or precipitating. The method of manufacturing the stable colloidal metal nanoparticles of the present invention generally includes (i) providing a solution comprising a plurality of metal atoms, (ii) providing a solution comprising a plurality of organic agent molecules, each organic agent molecule comprising at least one functional group capable of bonding to the metal atoms, (iii) reacting the metal atoms in solution with the organic agent molecules in solution to form a mixture comprising a plurality of complexed metal atoms, (iv) reducing the complexed metal atoms in the mixture using a reducing agent to form a plurality of nanoparticles, and (v) adding an amount of a base to the mixture, thereby improving the stability of the nanoparticles in the mixture. The base may be added before or after forming the nanoparticles.
    • 一种制备含有金属纳米粒子的稳定浓缩胶体的方法,其中胶体通过加入碱稳定。 这允许金属颗粒以更高的浓度形成而不形成较大的附聚物和/或沉淀。 制备本发明的稳定胶体金属纳米粒子的方法通常包括(i)提供包含多个金属原子的溶液,(ii)提供包含多个有机试剂分子的溶液,每个有机试剂分子包含至少一个 能够与金属原子键合的官能团,(iii)使溶液中的金属原子与溶液中的有机试剂分子反应,形成包含多个络合的金属原子的混合物,(iv)使用 还原剂形成多个纳米颗粒,和(v)向混合物中加入一定量的碱,从而提高混合物中纳米颗粒的稳定性。 可以在形成纳米颗粒之前或之后加入碱。
    • 5. 发明申请
    • Stable concentrated metal colloids and methods of making same
    • 稳定的浓缩金属胶体及其制备方法
    • US20070219083A1
    • 2007-09-20
    • US11378057
    • 2006-03-17
    • Cheng ZhangSukesh ParasherMichael RueterBing Zhou
    • Cheng ZhangSukesh ParasherMichael RueterBing Zhou
    • B01J31/00B01F3/12B01F17/00
    • B01J23/40B01J13/0034B01J13/0039B01J13/0043B01J35/0013B22F1/0022B22F9/26B22F2999/00B82Y30/00B22F2201/013
    • A method for manufacturing stable concentrated colloids containing metal nanoparticles in which the colloid is stabilized by adding a base. This allows the metal particles to be formed in higher concentration without forming larger agglomerates and/or precipitating. The method of manufacturing the stable colloidal metal nanoparticles of the present invention generally includes (i) providing a solution comprising a plurality of metal atoms, (ii) providing a solution comprising a plurality of organic agent molecules, each organic agent molecule comprising at least one functional group capable of bonding to the metal atoms, (iii) reacting the metal atoms in solution with the organic agent molecules in solution to form a mixture comprising a plurality of complexed metal atoms, (iv) reducing the complexed metal atoms in the mixture using a reducing agent to form a plurality of nanoparticles, and (v) adding an amount of a base to the mixture, thereby improving the stability of the nanoparticles in the mixture. The base may be added before or after forming the nanoparticles.
    • 一种制备含有金属纳米粒子的稳定浓缩胶体的方法,其中胶体通过加入碱稳定。 这允许金属颗粒以更高的浓度形成而不形成较大的附聚物和/或沉淀。 制备本发明的稳定胶体金属纳米粒子的方法通常包括(i)提供包含多个金属原子的溶液,(ii)提供包含多个有机试剂分子的溶液,每个有机试剂分子包含至少一个 能够与金属原子键合的官能团,(iii)使溶液中的金属原子与溶液中的有机试剂分子反应,形成包含多个络合金属原子的混合物,(iv)使用 还原剂形成多个纳米颗粒,和(v)向混合物中加入一定量的碱,从而提高混合物中纳米颗粒的稳定性。 可以在形成纳米颗粒之前或之后加入碱。
    • 8. 发明授权
    • Method of manufacturing multicomponent nanoparticles
    • 制造多组分纳米粒子的方法
    • US07709411B2
    • 2010-05-04
    • US12421208
    • 2009-04-09
    • Bing ZhouSukesh ParasherMichael Rueter
    • Bing ZhouSukesh ParasherMichael Rueter
    • B01J25/00B01J23/40B01J23/42B01J31/00C22C38/00C22C5/04
    • B01J35/0013B01J21/18B01J23/8906B01J37/0211B01J37/0219Y10S977/81
    • Multicomponent nanoparticles include two or more dissimilar components selected from different members of the group of noble metals, base transition metals, alkali earth metals, and rare earth metals and/or different groups of the periodic table of elements. The two or more dissimilar components are dispersed using a polyfunctional dispersing agent such that the multicomponent nanoparticles have a substantially uniform distribution of the two or more dissimilar components. The polyfunctional dispersing agent may include organic molecules, polymers, oligomers, or salts of these. The molecules of the dispersing agent bind to the dissimilar components to overcome same-component attraction, thereby allowing the dissimilar components to form multicomponent nanoparticles. Dissimilar components such as iron and platinum can be alloyed together using the dispersing agent to form substantially uniform multicomponent nanoparticles, which can be used alone or with a support. At least a portion of the dispersing agent is removed by reduction and/or oxidation.
    • 多组分纳米颗粒包括选自贵金属,碱金属过渡金属,碱土金属和稀土金属和/或元素周期表的不同组中的不同成员的两种或更多种不同成分。 使用多官能分散剂分散两种或更多种不同的组分,使得多组分纳米颗粒具有两个或多个不同成分的基本上均匀的分布。 多官能分散剂可以包括这些的有机分子,聚合物,低聚物或盐。 分散剂的分子与不同的组分结合以克服相同成分的吸引,从而允许不同组分形成多组分纳米颗粒。 可以使用分散剂将诸如铁和铂的不同组分合金化以形成基本均匀的多组分纳米颗粒,其可以单独使用或与支持体一起使用。 通过还原和/或氧化除去至少一部分分散剂。