公开(公告)号：US07259100B2

公开(公告)日：2007-08-21

申请号：US11271041

申请日：2005-11-10

申请人： Fabio Zurcher ,  Brent Ridley ,  Klaus Kunze ,  Scott Haubrich ,  Joerg Rockenberger

发明人： Fabio Zurcher ,  Brent Ridley ,  Klaus Kunze ,  Scott Haubrich ,  Joerg Rockenberger

IPC分类号： H01L21/302

CPC分类号： H01L21/02628 ,  B22F9/20 ,  B22F2998/00 ,  B82Y30/00 ,  C01G3/02 ,  C01G19/02 ,  C01G23/047 ,  C01G25/02 ,  C01G31/02 ,  C01G33/00 ,  C01G45/02 ,  C01G49/02 ,  C01G51/04 ,  C01P2002/52 ,  C01P2004/64 ,  H01L21/02532 ,  H01L21/02601 ,  H01L21/84 ,  H01L23/373 ,  H01L27/1292 ,  H01L2924/0002 ,  Y10S977/888 ,  B22F1/0022 ,  H01L2924/00

摘要： A method for making nanoparticles, nanoparticle inks and device layers therefrom is disclosed. In accordance with the present invention, nanoparticles are isolated from a composite material that is formed by treating a metal oxide precursor to form the metal nanoparticles and a metal oxide matrix. The nanoparticles are then isolated from the composite material by etching at least a portion of the metal oxide matrix to release the metal nanoparticles. In accordance with the embodiments of the invention, the nanoparticles are treated with surfactants and wetting agents either while etching or after etching, are isolated from the etchant and dispersed in a solvent medium and/or are otherwise treated or modified for use in a nanoparticle inks. A layer of the metal nanoparticle ink can then be used to form doped, undoped, patterned and unpatterned device layers or structures in micro-devices.

摘要翻译： 公开了一种制备纳米颗粒，纳米颗粒油墨及其装置层的方法。 根据本发明，从通过处理金属氧化物前体形成金属纳米颗粒和金属氧化物基质形成的复合材料分离纳米颗粒。 然后通过蚀刻至少一部分金属氧化物基质以释放金属纳米颗粒，从复合材料中分离出纳米颗粒。 根据本发明的实施方案，在蚀刻或蚀刻之后，用表面活性剂和润湿剂处理纳米颗粒，与蚀刻剂分离并分散在溶剂介质中和/或以其它方式处理或改性以用于纳米颗粒油墨 。 然后可以使用一层金属纳米颗粒油墨在微型装置中形成掺杂的，未掺杂的，图案化的和无图案化的器件层或结构。

公开(公告)号：US20070190298A1

公开(公告)日：2007-08-16

申请号：US11331233

申请日：2006-01-13

申请人： Mark Hampden-Smith ,  Richard Einhorn ,  Scott Haubrich ,  Ned Hardman ,  Jainisha Shah ,  Rimple Bhatia ,  Ralph Kornbrekke

发明人： Mark Hampden-Smith ,  Richard Einhorn ,  Scott Haubrich ,  Ned Hardman ,  Jainisha Shah ,  Rimple Bhatia ,  Ralph Kornbrekke

IPC分类号： B32B3/00

CPC分类号： B42D25/373 ,  B41M3/14 ,  B41M3/144 ,  B42D25/00 ,  B42D25/29 ,  B42D2033/10 ,  H01L2924/12044 ,  Y10T428/24876

摘要： This invention is directed to security features that are formed, created, printed from inks comprising metallic particles and/or metallic nanoparticles. Preferably, the security feature is a reflective security features that comprises metallic nanoparticles where the reflective security features are formed by a direct-writing process, e.g., an ink jet printing process, using an ink comprising metallic nanoparticles. The invention is also directed to the use of these security features in many applications and to processes for making them.

摘要翻译： 本发明涉及由包含金属颗粒和/或金属纳米颗粒的油墨形成，创建，印刷的安全特征。 优选地，安全特征是包括金属纳米颗粒的反射安全特征，其中通过使用包含金属纳米颗粒的油墨的直接写入过程（例如喷墨印刷方法）形成反射安全特征。 本发明还涉及这些安全特征在许多应用中的使用以及用于制造它们的过程。

公开(公告)号：US20060159838A1

公开(公告)日：2006-07-20

申请号：US11331185

申请日：2006-01-13

申请人： Mark Kowalski ,  Scott Haubrich ,  Anthony James

发明人： Mark Kowalski ,  Scott Haubrich ,  Anthony James

IPC分类号： B05D5/12 ,  B05D3/00 ,  B05D1/36

CPC分类号： B82Y30/00 ,  H01L51/0005 ,  H01L51/0022 ,  H05K1/16 ,  H05K3/12 ,  H05K3/1208 ,  H05K3/125 ,  H05K3/1258 ,  H05K3/245 ,  H05K3/386 ,  H05K2201/0116 ,  H05K2201/09909 ,  H05K2203/013 ,  H05K2203/0568 ,  H05K2203/1173

摘要： Processes for controlling ink migration during the formation of printable electronic features. In a preferred aspect, the invention is to a process for forming at least a portion of an electronic feature. The process includes the steps of: (a) providing a first substrate having a first surface; (b) modifying the first surface to form a modified surface; and (c) applying an ink to at least a portion of the modified surface, wherein the modified surface interacts with the ink to inhibit lateral and/or longitudinal migration of the applied ink, and wherein the applied ink forms at least a portion of the electronic feature. In another aspect, the invention is to a process for encouraging electronic ink spreading with a surfactant.

摘要翻译： 用于在形成可印刷的电子特征期间控制油墨迁移的过程。 在一个优选的方面，本发明是一种形成电子特征的至少一部分的方法。 该方法包括以下步骤：（a）提供具有第一表面的第一基底; （b）修饰第一表面以形成改性表面; 和（c）将油墨施加到所述改性表面的至少一部分上，其中所述改性表面与所述油墨相互作用以抑制所施加的油墨的横向和/或纵向迁移，并且其中所施加的油墨形成所述油墨的至少一部分 电子功能。 另一方面，本发明涉及一种鼓励用表面活性剂扩散电子墨水的方法。

公开(公告)号：US20060154036A1

公开(公告)日：2006-07-13

申请号：US11373696

申请日：2006-03-10

申请人： Klaus Kunze ,  Scott Haubrich ,  Fabio Zurcher ,  Brent Ridley ,  Joerg Rockenberger

发明人： Klaus Kunze ,  Scott Haubrich ,  Fabio Zurcher ,  Brent Ridley ,  Joerg Rockenberger

IPC分类号： B32B18/00

CPC分类号： C23C18/14 ,  C09D11/52 ,  C23C18/1204 ,  C23C18/1212 ,  C23C18/122 ,  C23C18/1225 ,  C23C18/127 ,  C23C18/1275 ,  H01L21/02532 ,  H01L21/02601 ,  H01L21/02636 ,  H01L29/66757 ,  Y10T428/24802 ,  Y10T428/24926 ,  Y10T428/31663

摘要： Compositions, inks and methods for forming a patterned silicon-containing film and patterned structures including such a film. The composition generally includes (a) passivated semiconductor nanoparticles and (b) first and second cyclic Group IVA compounds in which the cyclic species predominantly contains Si and/or Ge atoms. The ink generally includes the composition and a solvent in which the composition is soluble. The method generally includes the steps of (1) printing the composition or ink on a substrate to form a pattern, and (2) curing the patterned composition or ink. In an alternative embodiment, the method includes the steps of (i) curing either a semiconductor nanoparticle composition or at least one cyclic Group IVA compound to form a thin film, (ii) coating the thin film with the other, and (iii) curing the coated thin film to form a semiconducting thin film. The semiconducting thin film includes a sintered mixture of semiconductor nanoparticles in hydrogenated, at least partially amorphous silicon and/or germanium. The thin film exhibits improved conductivity, density, adhesion and/or carrier mobility relative to an otherwise identical structure made by an identical process, but without either the semiconductor nanoparticles or the hydrogenated Group IVA element polymer. The present invention advantageously provides semiconducting thin film structures having qualities suitable for use in electronics applications, such as display devices or RF ID tags, while enabling high-throughput printing processes that form such thin films in seconds or minutes, rather than hours or days as with conventional photolithographic processes.

公开(公告)号：US06878184B1

公开(公告)日：2005-04-12

申请号：US10215952

申请日：2002-08-09

申请人： Joerg Rockenberger ,  Fabio Zurcher ,  Scott Haubrich ,  Nassrin Sleiman

发明人： Joerg Rockenberger ,  Fabio Zurcher ,  Scott Haubrich ,  Nassrin Sleiman

IPC分类号： B22F1/00 ,  B22F9/24 ,  C09D11/00 ,  C09D11/02 ,  H01B1/02 ,  H01B1/22 ,  H05K3/12

CPC分类号： B22F1/0022 ,  B22F1/0018 ,  B22F9/24 ,  B22F2998/00 ,  B82Y30/00 ,  C09D11/03 ,  C09D11/30 ,  H01B1/02 ,  H01B1/22 ,  H05K3/1241 ,  B22F1/0062

摘要： Methods for making metal-based nanoparticles and inks are disclosed. In accordance with the method of the present invention, molecular metal precursors are reduced in the presence of a reaction medium to form the nanoparticles. The molecular metal precursors are preferably reduced by heating the metal precursor in the medium, by adding a reducing agent, such an aldehyde or a combination thereof. Metal precursor are preferably metal oxides, transition metal complexes or combination thereof. The method of the present invention is used to make high yield nanoparticles with a range of particle size distributions. Nanoparticle formed by the present invention include mixtures of nanoparticle, alloy nanoparticles, metal core shell nanoparticles or nanoparticle comprising a single metal species.

摘要翻译： 公开了制备金属基纳米颗粒和油墨的方法。 根据本发明的方法，分子金属前体在反应介质存在下还原形成纳米颗粒。 分子金属前体优选通过加热介质中的金属前体，通过加入还原剂，醛或其组合来还原。 金属前体优选为金属氧化物，过渡金属络合物或其组合。 本发明的方法用于制备具有粒度分布范围的高产率纳米颗粒。 由本发明形成的纳米颗粒包括纳米颗粒，合金纳米颗粒，金属核壳纳米颗粒或包含单一金属物质的纳米颗粒的混合物。

公开(公告)号：US20120175528A1

公开(公告)日：2012-07-12

申请号：US13496663

申请日：2010-10-01

申请人： Scott Haubrich ,  Jainisha Shah ,  Steven R. Cordero

发明人： Scott Haubrich ,  Jainisha Shah ,  Steven R. Cordero

IPC分类号： G01N21/64 ,  B32B5/16 ,  C09K11/08

CPC分类号： G01N21/64 ,  C09K11/7792 ,  F41J2/02 ,  G01J3/108 ,  G01N2021/6495 ,  G01N2021/6497 ,  G07D7/12 ,  G07D7/1205 ,  H04N5/33 ,  Y10T428/2982

摘要： A particulate composition comprises a plurality of particles wherein at least one of the particles comprises at least two different crystalline and/or glass phases, each phase comprising a host lattice and a dopant sensitive to electromagnetic radiation. The different phases simultaneously produce different responses on exposure to photons of the same energy, whereby the output from the particulate composition when exposed to said photons is the sum of the responses from the different phases.

摘要翻译： 颗粒组合物包含多个颗粒，其中至少一个颗粒包含至少两个不同的晶体和/或玻璃相，每个相包含主体晶格和对电磁辐射敏感的掺杂剂。 不同的相同时在暴露于相同能量的光子时产生不同的响应，由此当暴露于所述光子时，颗粒组合物的输出是来自不同相的响应的总和。

公开(公告)号：US07879696B2

公开(公告)日：2011-02-01

申请号：US10616147

申请日：2003-07-08

申请人： Klaus Kunze ,  Scott Haubrich ,  Fabio Zurcher ,  Brent Ridley ,  Joerg Rockenberger

发明人： Klaus Kunze ,  Scott Haubrich ,  Fabio Zurcher ,  Brent Ridley ,  Joerg Rockenberger

IPC分类号： H01L21/20

CPC分类号： C23C18/14 ,  C09D11/52 ,  C23C18/1204 ,  C23C18/1212 ,  C23C18/122 ,  C23C18/1225 ,  C23C18/127 ,  C23C18/1275 ,  H01L21/02532 ,  H01L21/02601 ,  H01L21/02636 ,  H01L29/66757 ,  Y10T428/24802 ,  Y10T428/24926 ,  Y10T428/31663

摘要： Compositions, inks and methods for forming a patterned silicon-containing film and patterned structures including such a film. The composition generally includes (a) passivated semiconductor nanoparticles and (b) first and second cyclic Group IVA compounds in which the cyclic species predominantly contains Si and/or Ge atoms. The ink generally includes the composition and a solvent in which the composition is soluble. The method generally includes the steps of (1) printing the composition or ink on a substrate to form a pattern, and (2) curing the patterned composition or ink. In an alternative embodiment, the method includes the steps of (i) curing either a semiconductor nanoparticle composition or at least one cyclic Group IVA compound to form a thin film, (ii) coating the thin film with the other, and (iii) curing the coated thin film to form a semiconducting thin film. The semiconducting thin film includes a sintered mixture of semiconductor nanoparticles in hydrogenated, at least partially amorphous silicon and/or germanium. The thin film exhibits improved conductivity, density, adhesion and/or carrier mobility relative to an otherwise identical structure made by an identical process, but without either the semiconductor nanoparticles or the hydrogenated Group IVA element polymer. The present invention advantageously provides semiconducting thin film structures having qualities suitable for use in electronics applications, such as display devices or RF ID tags, while enabling high-throughput printing processes that form such thin films in seconds or minutes, rather than hours or days as with conventional photolithographic processes.

摘要翻译： 用于形成图案化含硅膜的组合物，油墨和方法以及包括这种膜的图案化结构。 组合物通常包括（a）钝化的半导体纳米颗粒和（b）其中环状物质主要含有Si和/或Ge原子的第一和第二环状IVA族化合物。 油墨通常包括组合物和其中组合物可溶的溶剂。 该方法通常包括以下步骤：（1）在基材上印刷组合物或油墨以形成图案，和（2）固化图案化的组合物或油墨。 在替代实施方案中，该方法包括以下步骤：（i）固化半导体纳米颗粒组合物或至少一种环状IVA族化合物以形成薄膜，（ii）将薄膜与另一种膜相涂，和（iii）固化 涂覆的薄膜形成半导体薄膜。 半导体薄膜包括在氢化，至少部分非晶硅和/或锗中的半导体纳米颗粒的烧结混合物。 相对于通过相同方法制造的其它相同结构，但不含半导体纳米颗粒或氢化IVA族元素聚合物，该薄膜表现出改进的导电性，密度，粘附性和/或载流子迁移率。 本发明有利地提供了具有适合用于电子应用（例如显示装置或RF ID标签）的质量的半导体薄膜结构，同时能够在数秒或数分钟而不是几小时或几天内形成这种薄膜的高通量印刷工艺， 与传统的光刻工艺。

公开(公告)号：US07315068B2

公开(公告)日：2008-01-01

申请号：US11077240

申请日：2005-03-09

申请人： Scott Haubrich ,  Klaus Kunze ,  James C. Dunphy ,  Chris Gudeman ,  Joerg Rockenberger ,  Fabio Zurcher ,  Nassrin Sleiman ,  Mao Takashima ,  Chris Spindt

发明人： Scott Haubrich ,  Klaus Kunze ,  James C. Dunphy ,  Chris Gudeman ,  Joerg Rockenberger ,  Fabio Zurcher ,  Nassrin Sleiman ,  Mao Takashima ,  Chris Spindt

IPC分类号： H01L29/94

CPC分类号： H01L27/1292

摘要： The present invention is directed to methods for making electronic devices with a thin anisotropic conducting layer interface layer formed between a substrate and an active device layer that is preferably patterned conductive layer. The interface layer preferably provides Ohmic and/or rectifying contact between the active device layer and the substrate and preferably provides good adhesion of the active device layer to the substrate. The active device layer is preferably fashioned from a nanoparticle ink solution that is patterned using embossing methods or other suitable printing and/or imaging methods. The active device layer is preferably patterned into an array of gate structures suitable for the fabrication of thin film transistors and the like.

摘要翻译： 本发明涉及用于制造具有薄的各向异性导电层界面层的电子器件的方法，所述薄的各向异性导电层界面层形成在衬底和优选图案化导电层的有源器件层之间。 界面层优选地在有源器件层和衬底之间提供欧姆和/或整流接触，并且优选地提供有源器件层与衬底的良好粘附。 活性器件层优选由使用压花方法或其它合适的印刷和/或成像方法图案化的纳米颗粒油墨溶液形成。 有源器件层优选地被图案化成适于制造薄膜晶体管等的栅极结构的阵列。

公开(公告)号：US20070034052A1

公开(公告)日：2007-02-15

申请号：US11331230

申请日：2006-01-13

申请人： Karel Vanheusden ,  Klaus Kunze ,  Hyungrak Kim ,  Aaron Stump ,  Allen Schult ,  Mark Hampden-Smith ,  Chuck Edwards ,  Anthony James ,  James Caruso ,  Toivo Kodas ,  Scott Haubrich ,  Mark Kowalski

发明人： Karel Vanheusden ,  Klaus Kunze ,  Hyungrak Kim ,  Aaron Stump ,  Allen Schult ,  Mark Hampden-Smith ,  Chuck Edwards ,  Anthony James ,  James Caruso ,  Toivo Kodas ,  Scott Haubrich ,  Mark Kowalski

IPC分类号： B22F9/24

CPC分类号： B22F1/0018 ,  B22F1/0022 ,  B22F9/24 ,  B22F2998/10 ,  B82Y30/00 ,  C09D11/101 ,  C09D11/30 ,  C09D11/38 ,  C22B3/20 ,  C22B11/04 ,  C22B23/0453 ,  H01B1/22 ,  H01L21/288 ,  H05K1/097 ,  H05K3/125 ,  H05K2203/013 ,  Y02P10/234 ,  Y10S977/777 ,  Y10S977/896

摘要： A process for the production of metal nanoparticles. The process comprises a rapid mixing of a solution of at least about 0.1 mole of a metal compound that is capable of being reduced to a metal by a polyol with a heated solution of a polyol and a substance that is capable of being adsorbed on the nanoparticles.

摘要翻译： 一种生产金属纳米粒子的方法。 该方法包括将至少约0.1摩尔能够被多元醇还原成金属的金属化合物与多元醇的加热溶液和能够吸附在纳米颗粒上的物质快速混合 。

公开(公告)号：US20060189113A1

公开(公告)日：2006-08-24

申请号：US11331211

申请日：2006-01-13

申请人： Karel Vanheusden ,  Klaus Kunze ,  Hyungrak Kim ,  Aaron Stump ,  Allen Schult ,  Mark Hampden-Smith ,  Chuck Edwards ,  Anthony James ,  James Caruso ,  Toivo Kodas ,  Scott Haubrich ,  Mark Kowalski

发明人： Karel Vanheusden ,  Klaus Kunze ,  Hyungrak Kim ,  Aaron Stump ,  Allen Schult ,  Mark Hampden-Smith ,  Chuck Edwards ,  Anthony James ,  James Caruso ,  Toivo Kodas ,  Scott Haubrich ,  Mark Kowalski

IPC分类号： C09D5/10 ,  H01L21/44

CPC分类号： B22F1/0018 ,  B22F1/0022 ,  B22F9/24 ,  B22F2998/10 ,  B82Y30/00 ,  C09D11/101 ,  C09D11/30 ,  C09D11/38 ,  C22B3/20 ,  C22B11/04 ,  C22B23/0453 ,  H01B1/22 ,  H01L21/288 ,  H05K1/097 ,  H05K3/125 ,  H05K2203/013 ,  Y02P10/234 ,  Y10S977/777 ,  Y10S977/896

摘要： A metal nanoparticle composition for the fabrication of conductive features. The metal nanoparticle composition advantageously has a low viscosity permitting deposition of the composition by direct-write tools. The metal nanoparticle composition advantageously also has a low conversion temperature, permitting its deposition and conversion to an electrical feature on polymeric substrates.