公开(公告)号：US20110277683A1

公开(公告)日：2011-11-17

申请号：US13052515

申请日：2011-03-21

Applicant: Ashutosh Chilkoti ,  Zhongping Yang ,  Jinho Hyun

Inventor： Ashutosh Chilkoti ,  Zhongping Yang ,  Jinho Hyun

IPC: B05C1/00 ,  C08G63/91 ,  B32B38/10

CPC classification number: B82Y30/00 ,  A61L27/34 ,  A61L27/50 ,  A61L27/54 ,  A61L2300/22 ,  A61L2300/23 ,  A61L2300/252 ,  A61L2300/258 ,  A61L2300/604 ,  B01J19/0046 ,  B01J2219/00382 ,  B01J2219/00497 ,  B01J2219/00527 ,  B01J2219/00529 ,  B01J2219/00585 ,  B01J2219/00596 ,  B01J2219/00605 ,  B01J2219/0061 ,  B01J2219/00626 ,  B01J2219/0063 ,  B01J2219/00635 ,  B01J2219/00659 ,  B01J2219/0072 ,  B01J2219/00722 ,  B01J2219/00725 ,  B05D1/185 ,  B05D1/283 ,  B82Y40/00 ,  C07B2200/11 ,  C40B40/06 ,  C40B40/10 ,  C40B60/14 ,  G01N33/545 ,  Y10T156/19

Abstract: Methods of attaching a ligand to a surface are described that include contacting a surface with a substrate containing an amphiphilic comb polymer. The substrate is configured to provide a pattern of the amphiphilic comb polymer on a selected region of the surface. The substrate can be separated from the surface leaving the amphiphilic comb polymer on the selected region of the surface, thus providing a selected region of the surface having amphiphilic comb polymer on it. A ligand can then be deposited on the surface such that the selected region of the surface having the amphiphilic comb polymer is substantially free of the ligand.

Abstract translation: 描述了将配体连接到表面的方法，其包括使表面与含有两亲性梳状聚合物的基材接触。 衬底被配置为在表面的选定区域上提供两亲梳状聚合物的图案。 衬底可以从离开表面的选定区域的两亲性梳状聚合物的表面分离，从而在其上提供具有两亲性梳状聚合物的表面的选定区域。 然后可以将配体沉积在表面上，使得具有两亲梳状聚合物的表面的选定区域基本上不含配体。

公开(公告)号：US20090117277A1

公开(公告)日：2009-05-07

申请号：US12122981

申请日：2008-05-19

Applicant: Ali Afzali-Ardakani ,  James Bowler Hannon

Inventor： Ali Afzali-Ardakani ,  James Bowler Hannon

IPC: B05D5/00 ,  B05D3/00

CPC classification number: B82Y30/00 ,  B05D1/283 ,  B82Y40/00

Abstract: The present invention provides a method for the selective placement of carbon nanotubes on a particular surface. In particular, the present invention provides a method in which self-assembled monolayers formed on an unpatterned or patterned metal oxide surface are used to attract or repel carbon nanotubes from a dispersion containing the same. In accordance with the present invention, the carbon nanotubes can be attracted to the self-assembled monolayers so as to be attached to the metal oxide surface, or they can be repelled by the self-assembled monolayers bonding to a predetermined surface other than the metal oxide surface containing the self-assembled monolayers.

Abstract translation: 本发明提供了一种在特定表面上选择性地放置碳纳米管的方法。 特别地，本发明提供了一种方法，其中形成在未图案化或图案化的金属氧化物表面上的自组装单层被用于从含有该碳纳米管的分散体吸引或排斥碳纳米管。 根据本发明，碳纳米管可以被吸引到自组装单层上以便附着到金属氧化物表面，或者它们可以被结合到除了金属之外的预定表面的自组装单层排斥 含有自组装单层的氧化物表面。

公开(公告)号：US20090001049A1

公开(公告)日：2009-01-01

申请号：US12187070

申请日：2008-08-06

Applicant: George M. Whitesides ,  Younan Xia ,  James L. Wilbur ,  Rebecca J. Jackman ,  Enoch Kim ,  Mara G. Prentiss ,  Milan Mrksich ,  Amit Kumar ,  Christopher B. Gorman ,  Hans Biebuyck ,  Karl K. Berggren

Inventor： George M. Whitesides ,  Younan Xia ,  James L. Wilbur ,  Rebecca J. Jackman ,  Enoch Kim ,  Mara G. Prentiss ,  Milan Mrksich ,  Amit Kumar ,  Christopher B. Gorman ,  Hans Biebuyck ,  Karl K. Berggren

IPC: C03C15/00

CPC classification number: B01L3/5085 ,  B01J2219/00382 ,  B01J2219/00605 ,  B01J2219/0061 ,  B01J2219/00612 ,  B01J2219/00617 ,  B01J2219/00619 ,  B01J2219/00621 ,  B01J2219/0063 ,  B01J2219/00637 ,  B01J2219/00659 ,  B01L3/5088 ,  B01L2300/0654 ,  B01L2300/0819 ,  B01L2300/0851 ,  B05D1/283 ,  B82Y10/00 ,  B82Y30/00 ,  B82Y40/00 ,  C40B60/14 ,  G02B5/1857 ,  G02B6/124 ,  G02B6/136 ,  G02B2006/12102 ,  G02B2006/12104 ,  G02B2006/12107 ,  G03F7/0002 ,  G03F7/165 ,  H01L21/4867 ,  H01L21/768

Abstract: Improved methods of forming a patterned self-assembled monolayer on a surface and derivative articles are provided. According to one method, an elastomeric stamp is deformed during and/or prior to using the stamp to print a self-assembled molecular monolayer on a surface. According to another method, during monolayer printing the surface is contacted with a liquid that is immiscible with the molecular monolayer-forming species to effect controlled reactive spreading of the monolayer on the surface. Methods of printing self-assembled molecular monolayers on nonplanar surfaces and derivative articles are provided, as are methods of etching surfaces patterned with self-assembled monolayers, including methods of etching silicon. Optical elements including flexible diffraction gratings, mirrors, and lenses are provided, as are methods for forming optical devices and other articles using lithographic molding. A method for controlling the shape of a liquid on the surface of an article is provided, involving applying the liquid to a self-assembled monolayer on the surface, and controlling the electrical potential of the surface.

Abstract translation: 提供了在表面和衍生物品上形成图案化自组装单层的改进方法。 根据一种方法，弹性印模在使用印模期间和/或之前变形，以在表面上印刷自组装分子单层。 根据另一种方法，在单层印刷过程中，表面与与分子单层形成物质不混溶的液体接触，以实现单层在表面上的受控的反应性扩散。 提供了在非平面表面和衍生物上印刷自组装分子单层的方法，以及用自组装单层蚀刻表面的方法，包括蚀刻硅的方法。 提供包括柔性衍射光栅，反射镜和透镜的光学元件，以及用于使用光刻成型形成光学器件和其它制品的方法。 提供了一种用于控制制品表面上的液体形状的方法，包括将液体施加到表面上的自组装单层，并控制表面的电位。

公开(公告)号：US20070196571A1

公开(公告)日：2007-08-23

申请号：US11783569

申请日：2007-04-10

Applicant: Geoffrey Ozin ,  San Yang ,  Hernan Miguez

Inventor： Geoffrey Ozin ,  San Yang ,  Hernan Miguez

IPC: B05D5/00

CPC classification number: B32B9/00 ,  B05D1/283 ,  B32B3/30 ,  B82Y15/00 ,  B82Y20/00 ,  B82Y30/00 ,  B82Y40/00 ,  G02B6/1225 ,  G02B6/13 ,  Y10S977/779 ,  Y10S977/883 ,  Y10T428/24355 ,  Y10T428/24372 ,  Y10T428/24479 ,  Y10T428/2457 ,  Y10T428/24579 ,  Y10T428/2462

Abstract: This invention describes methods of synthesis and applications of planarized photonic crystals. Provided are simple, quick, reproducible and inexpensive methods that combine self-assembly and lithography to achieve the first examples of vectorial control of thickness, structure, area, topology, orientation and registry of colloidal crystals that have been patterned in substrates for use in lab-on-chip and photonic chip technologies. 1-, 2 and 3-D colloidal crystals patterned either on or within substrates can be used for templating inverted colloidal crystal replica patterns made of materials like silicon as well as building micron scale structural defects in such colloidal crystals. These photonic crystals can form the basis of a range of optical devices that may be integrated within photonic chips and coupled to optical fibers and/or waveguides to enable development of highly compact planarized optically integrated photonic crystal devices and circuits for use in future all-optical computers and optical telecommunication systems.

公开(公告)号：US07247349B2

公开(公告)日：2007-07-24

申请号：US10660588

申请日：2003-09-12

Applicant: Geoffrey Alan Ozin ,  San Ming Yang ,  Hernan Miguez

Inventor： Geoffrey Alan Ozin ,  San Ming Yang ,  Hernan Miguez

IPC: B05D1/18 ,  B05D1/28 ,  B05D1/36

CPC classification number: B32B9/00 ,  B05D1/283 ,  B32B3/30 ,  B82Y15/00 ,  B82Y20/00 ,  B82Y30/00 ,  B82Y40/00 ,  G02B6/1225 ,  G02B6/13 ,  Y10S977/779 ,  Y10S977/883 ,  Y10T428/24355 ,  Y10T428/24372 ,  Y10T428/24479 ,  Y10T428/2457 ,  Y10T428/24579 ,  Y10T428/2462

Abstract: This invention describes methods of synthesis and applications of planarized photonic crystals. Provided are simple, quick, reproducible and inexpensive methods that combine self-assembly and lithography to achieve the first examples of vectorial control of thickness, structure, area, topology, orientation and registry of colloidal crystals that have been patterned in substrates for use in lab-on-chip and photonic chip technologies. 1-, 2 and 3-D colloidal crystals patterned either on or within substrates can be used for templating inverted colloidal crystal replica patterns made of materials like silicon as well as building micron scale structural defects in such colloidal crystals. These photonic crystals can form the basis of a range of optical devices that may be integrated within photonic chips and coupled to optical fibers and/or waveguides to enable development of highly compact planarized optically integrated photonic crystal devices and circuits for use in future all-optical computers and optical telecommunication systems.

Abstract translation: 本发明描述了平面化光子晶体的合成和应用方法。 提供了简单，快速，可再现和便宜的方法，其组合自组装和光刻以实现已经在用于实验室的基板中图案化的胶体晶体的厚度，结构，面积，拓扑，取向和注册表的矢量控制的第一示例 芯片和光子芯片技术。 图案化在衬底上或衬底内的1，2和3-D胶体晶体可用于模板化由硅材料制成的反胶体晶体复制图案以及在这种胶体晶体中构建微米级结构缺陷。 这些光子晶体可以形成一系列光学器件的基础，光学器件可以集成在光子芯片中并且耦合到光纤和/或波导，以便能够开发用于将来全光学的高度紧凑的平面化的光学集成光子晶体器件和电路 计算机和光通信系统。

公开(公告)号：US20040224303A1

公开(公告)日：2004-11-11

申请号：US10814995

申请日：2004-03-31

Applicant: Eidgenossische Technische Hochschule Zurich

Inventor： Nicholas D. Spencer ,  Sara Maria Morgenthaler ,  Seunghwan Lee

IPC: C12Q001/00

CPC classification number: B82Y30/00 ,  B01L3/5088 ,  B05D1/283 ,  B05D5/00 ,  B82Y40/00 ,  G01N13/02 ,  G01N33/5005 ,  G01N33/5029 ,  G01N33/52 ,  G01N2610/00

Abstract: A simple and reproducible preparative method for the fabrication of surface-chemical gradients is described herein. Surface-chemical gradient films are prepared by using a liquid front in relative motion to the substrate (e.g. immersion by a linear-motion drive or the use of a spreading droplet) to gradually expose substrate samples to very dilute solutions of adsorbates. As demonstrated by XPS, the self-assembled monolayer gradients produced in this way display a high packing density. This method can be used in the preparation of other gradients of various chemical or biochemical functionalities in one or two dimensions. Such gradients can be used in a wide variety of applications in such diverse areas as cell motility studies, nanotribology research, and high-throughput screening.

Abstract translation: 本文描述了用于制造表面化学梯度的简单且可重现的制备方法。 通过使用与基底相对运动的液体前沿（例如通过线性运动驱动的浸入或使用扩散液滴）来制备表面化学梯度膜，以逐渐将底物样品暴露于非常稀的吸附物溶液。 如XPS所证明的，以这种方式生产的自组装单层梯度显示出高的堆积密度。 该方法可用于制备一维或二维各种化学或生物化学功能的其他梯度。 这种梯度可以用于各种领域，例如细胞运动性研究，纳米技术研究和高通量筛选。

公开(公告)号：US20040053009A1

公开(公告)日：2004-03-18

申请号：US10660588

申请日：2003-09-12

Inventor： Geoffrey Alan Ozin ,  San Ming Yang ,  Hernan Miguez

IPC: B32B003/28 ,  B05D005/12 ,  B05D001/32 ,  B05D001/18 ,  C23C016/00 ,  B05D003/02

CPC classification number: B32B9/00 ,  B05D1/283 ,  B32B3/30 ,  B82Y15/00 ,  B82Y20/00 ,  B82Y30/00 ,  B82Y40/00 ,  G02B6/1225 ,  G02B6/13 ,  Y10S977/779 ,  Y10S977/883 ,  Y10T428/24355 ,  Y10T428/24372 ,  Y10T428/24479 ,  Y10T428/2457 ,  Y10T428/24579 ,  Y10T428/2462

Abstract: This invention describes methods of synthesis and applications of planarized photonic crystals. Provided are simple, quick, reproducible and inexpensive methods that combine self-assembly and lithography to achieve the first examples of vectorial control of thickness, structure, area, topology, orientation and registry of colloidal crystals that have been patterned in substrates for use in lab-on-chip and photonic chip technologies. 1-, 2 and 3-D colloidal crystals patterned either on or within substrates can be used for templating inverted colloidal crystal replica patterns made of materials like silicon as well as building micron scale structural defects in such colloidal crystals. These photonic crystals can form the basis of a range of optical devices that may be integrated within photonic chips and coupled to optical fibers and/or waveguides to enable development of highly compact planarized optically integrated photonic crystal devices and circuits for use in future all-optical computers and optical telecommunication systems.

Abstract translation: 本发明描述了平面化光子晶体的合成和应用方法。 提供了简单，快速，可再现和便宜的方法，其组合自组装和光刻以实现已经在用于实验室的基板中图案化的胶体晶体的厚度，结构，面积，拓扑，取向和注册表的矢量控制的第一示例 芯片和光子芯片技术。 图案化在衬底上或衬底内的1，2和3-D胶体晶体可用于模板化由硅材料制成的反胶体晶体复制图案以及在这种胶体晶体中构建微米级结构缺陷。 这些光子晶体可以形成一系列光学器件的基础，光学器件可以集成在光子芯片中并且耦合到光纤和/或波导，以便能够开发用于将来全光学的高度紧凑的平面化的光学集成光子晶体器件和电路 计算机和光通信系统。

公开(公告)号：US06444254B1

公开(公告)日：2002-09-03

申请号：US09519038

申请日：2000-03-03

Applicant: Ashutosh Chilkoti ,  Zhongping Yang

Inventor： Ashutosh Chilkoti ,  Zhongping Yang

IPC: B05D128

CPC classification number: B82Y30/00 ,  B01J19/0046 ,  B01J2219/00382 ,  B01J2219/00497 ,  B01J2219/00527 ,  B01J2219/00529 ,  B01J2219/00585 ,  B01J2219/00596 ,  B01J2219/00605 ,  B01J2219/0061 ,  B01J2219/00626 ,  B01J2219/0063 ,  B01J2219/00635 ,  B01J2219/00659 ,  B01J2219/0072 ,  B01J2219/00722 ,  B01J2219/00725 ,  B05D1/185 ,  B05D1/283 ,  B82Y40/00 ,  C07B2200/11 ,  C40B40/06 ,  C40B40/10 ,  C40B60/14 ,  G01N33/545

Abstract: Functionalized polymer surfaces having reactive moieties thereon are contacted with stamps having ligands adsorbed thereto, the ligands also comprising reactive moieties. The reactive moieties of the functionalized surfaces and the ligands form covalent bonds, thus providing a method of microstamping polymer surfaces directly with ligands such as biological ligands. Using this method, devices such as tissue culture plates with polymer surfaces that are microstamped directly with ligands can be made.

Abstract translation: 其上具有反应性部分的官能化聚合物表面与吸附有配体的标记物接触，所述配体还包含反应性部分。 功能化表面和配体的反应性部分形成共价键，从而提供直接与诸如生物配体的配体微聚合聚合物表面的方法。 使用该方法，可以制造诸如具有直接与配体微阻挡的聚合物表面的组织培养板的装置。

公开(公告)号：US20010000330A1

公开(公告)日：2001-04-19

申请号：US09731499

申请日：2000-12-07

Inventor： Timothy A. Strodtbeck

IPC: B05D001/18 ,  B05C003/02

CPC classification number: B82Y30/00 ,  B05D1/283 ,  B05D3/12 ,  B82Y40/00

Abstract: A process and apparatus for processing a monolayer film and transferring the monolayer film to a substrate are provided. In accordance with one embodiment of the present invention, a process for transferring a monolayer film to a substrate is provided comprising the steps of: (i) providing a water-based carrier media defining an upper surface; (ii) introducing process particles on the upper surface of the carrier media, wherein the molecules are dissolved in a solvent and the particles and the solvent are insoluble in the carrier media; (iii) evaporating the solvent such that a non-cohesive monolayer film of the particles is formed on the upper surface of the carrier media; (iv) decreasing a degree of void incorporation in the monolayer film of particles by compressing a dimension of the non-cohesive film along the upper surface of the carrier media, and sonicating the carrier media to form micro-bubbles in the carrier media, wherein the compression and the sonication contribute to a decreased degree of void incorporation in the film of process particles; and (v) transferring the film of particles to a surface of the substrate. The steps of compressing and sonicating may be executed concurrently.

Abstract translation: 提供了用于处理单层膜并将单层膜转移到基底的方法和设备。 根据本发明的一个实施方案，提供了将单层膜转移到基底的方法，包括以下步骤：（i）提供限定上表面的水基载体介质; （ii）在载体介质的上表面上引入工艺颗粒，其中分子溶解在溶剂中，颗粒和溶剂不溶于载体介质中; （iii）蒸发溶剂，使得在载体介质的上表面上形成颗粒的非粘性单层膜; （iv）通过沿所述载体介质的上表面压缩所述非粘性膜的尺寸，并超声处理所述载体介质以在所述载体介质中形成微气泡，从而降低所述单层膜中的空隙结合度，其中 压缩和超声处理有助于在工艺颗粒的膜中降低空隙掺入程度; 和（v）将颗粒膜转移到基材的表面。 压缩和声波处理的步骤可以同时执行。

公开(公告)号：US06183558B2

公开(公告)日：2001-02-06

申请号：US09294297

申请日：1999-04-19

Applicant: Tadashi Otake ,  Norihisa Mino ,  Tohru Nakagawa ,  Mamoru Soga ,  Kazufumi Ogawa ,  Takaiki Nomura ,  Yasuo Takebe

Inventor： Tadashi Otake ,  Norihisa Mino ,  Tohru Nakagawa ,  Mamoru Soga ,  Kazufumi Ogawa ,  Takaiki Nomura ,  Yasuo Takebe

IPC: B05C108

CPC classification number: B82Y30/00 ,  B05D1/283 ,  B05D3/0486 ,  B82Y40/00

Abstract: A method for forming a molecular film includes the steps of: coating a surface of a substrate having active hydrogen atoms on its surface with a coating solution containing a silane-based compound having at least one reactive group selected from the group consisting of a chloro group, an alkoxy group and an isocyanate group; and effecting an elimination reaction between the active hydrogen atoms on the surface of the substrate and reactive groups of the silane-based compound, thereby covalently bonding the silane-based compounds to the surface of the substrate. The substrate is supplied to a chamber in which an atmosphere is maintained at a low water vapor density. The surface of the substrate is coated with a coating solution containing the silane-based compound and a solvent by using a transfer element. A dehydrochlorination reaction is effected between the active hydrogen atoms and the chloro groups of the silane-based compounds. Thereafter, any coating solution containing unreacted silane-based compounds after coating is removed inside or outside the chamber.

Abstract translation: 形成分子膜的方法包括以下步骤：用包含具有至少一个选自氯基团的反应性基团的硅烷基化合物的涂布溶液在其表面上涂覆具有活性氢原子的基材的表面 ，烷氧基和异氰酸酯基; 并且进行基板表面上的活性氢原子与硅烷类化合物的反应性基团之间的消除反应，从而将硅烷类化合物共价键合到基板的表面。 将基板供给到气氛保持在低水蒸汽密度的室中。 通过使用转印元件，将含有硅烷系化合物和溶剂的涂布液涂布在基材的表面上。 在活性氢原子和硅烷基化合物的氯基之间进行脱氯化氢反应。 此后，在室内或室外除去涂布后含有未反应的硅烷类化合物的任何涂布溶液。