公开(公告)号：US20110212297A1

公开(公告)日：2011-09-01

申请号：US13128288

申请日：2009-11-13

Applicant: Ali Dhinojwala ,  Sunny Sethi

Inventor： Ali Dhinojwala ,  Sunny Sethi

IPC: B05D5/12 ,  B32B3/30 ,  C23F1/02 ,  B82Y30/00 ,  B82Y40/00

CPC classification number: B81C1/00206 ,  B81C1/00111 ,  B81C2201/0191 ,  B82Y30/00 ,  B82Y40/00 ,  C01B31/0226 ,  C01B32/16 ,  C09J7/00 ,  C09J2201/626 ,  Y10T156/109 ,  Y10T428/24008 ,  Y10T428/24364 ,  Y10T428/24893 ,  Y10T428/249921 ,  Y10T428/25 ,  Y10T428/26 ,  Y10T428/29 ,  Y10T428/2913 ,  Y10T428/298 ,  Y10T428/30 ,  Y10T442/2213 ,  Y10T442/2221

Abstract: This is provided a hydrophobic or superhydrophobic surface configuration and method of forming a hydrophobic or superhydrophobic material on a metallic substrate. The surface configuration comprises a metallic substrate having a carbon nanotube/carbon fibers configuration grown thereon, with the carbon nanotubes/carbon fibers configuration having a heirarchial structure formed to have a predetermined roughness in association with the surface. The method comprises providing a metallic substrate having a predetermined configuration, and growing a plurality of carbon nanotubes/fibers or other nanostructures formed into a predetermined architecture supported on the substrate.

Abstract translation: 这提供了在金属基底上形成疏水或超疏水材料的疏水或超疏水表面构型和方法。 表面构造包括具有生长在其上的碳纳米管/碳纤维构型的金属基底，其中具有与表面相关联的具有预定粗糙度的阴极结构的碳纳米管/碳纤维构型。 该方法包括提供具有预定构造的金属基底，以及生长形成为支撑在基底上的预定结构的多个碳纳米管/纤维或其它纳米结构。

公开(公告)号：US20110171430A1

公开(公告)日：2011-07-14

申请号：US13014182

申请日：2011-01-26

Applicant: Brian MAYERS ,  Sandip Agarwal ,  Jeffrey Carbeck ,  David Ledoux ,  Kevin Randall Stewart ,  George M. Whitesides ,  Adam Winkleman

Inventor： Brian MAYERS ,  Sandip Agarwal ,  Jeffrey Carbeck ,  David Ledoux ,  Kevin Randall Stewart ,  George M. Whitesides ,  Adam Winkleman

IPC: B29C59/16 ,  B29C59/02 ,  B32B3/10 ,  B32B37/02 ,  B32B37/12

CPC classification number: C09J183/06 ,  B32B3/30 ,  B32B37/1292 ,  B32B2037/1246 ,  B32B2355/00 ,  B32B2367/00 ,  B32B2383/00 ,  B32B2405/00 ,  C09J7/00 ,  C09J167/00 ,  C09J2201/626 ,  C09J2467/003 ,  C09J2483/003 ,  Y10T156/10 ,  Y10T428/24562 ,  Y10T428/24612

Abstract: The present invention is directed to adhesive systems and methods of making and using such systems. Exemplary adhesive systems comprise protrusions and/or grooves that can interleave to form a reversible adhesive interaction.

公开(公告)号：US20100203323A1

公开(公告)日：2010-08-12

申请号：US12677405

申请日：2008-08-26

Applicant: Yoshio Terada ,  Shozo Kawazoe ,  Yoshinori Yoshida

Inventor： Yoshio Terada ,  Shozo Kawazoe ,  Yoshinori Yoshida

IPC: B32B7/10 ,  B05D5/10

CPC classification number: B08B7/0028 ,  C09J7/00 ,  C09J2201/626 ,  H01L21/6836 ,  Y10T428/26

Abstract: Provided are a pressure-sensitive adhesive tape, which has a needed pressure-sensitive adhesive force for an adherend, can remove even foreign matter at a submicron level without contaminating a cleaning site, is excellent in heat resistance, exerts a sufficient pressure-sensitive adhesive force and a sufficient cohesive force even at a high temperature, and can be easily peeled without generating any adhesive residue on the adherend upon peeling from the adherend after its use, and a method of producing the tape. The pressure-sensitive adhesive tape of the present invention includes, on a surface of a support, an assembly layer of oblique columnar structures each protruding at an elevation angle of less than 90° from the surface of the support, the oblique columnar structures each having an aspect ratio of 1 or more. The method of producing a pressure-sensitive adhesive tape of the present invention is a method of producing, on a surface of a support, a pressure-sensitive adhesive tape including an assembly layer of oblique columnar structures each protruding at an elevation angle of less than 90° from the surface of the support, the oblique columnar structures each having an aspect ratio of 1 or more, the method including forming the oblique columnar structures on the surface of the support by an oblique deposition process.

Abstract translation: 提供一种对被粘物具有必要的压敏粘合力的压敏粘合带，能够在不污染清洁部位的情况下除去亚微米级的异物，耐热性优异，施加足够的压敏粘合剂 并且即使在高温下也具有足够的内聚力，并且在使用后剥离被粘附体时，可以容易地剥离被粘物而不会在被粘物上产生粘合残留物，以及该带的制造方法。 本发明的压敏粘合带在支撑体的表面上包括倾斜柱状结构的组装层，每个倾斜柱状结构从支撑体的表面以低于90°的仰角突出，倾斜柱状结构各自具有 长宽比为1以上。 本发明的粘合带的制造方法是在支撑体的表面上制造压敏粘合带的方法，所述粘合带包括倾斜柱状结构的组装层，每个倾斜柱状结构以小于 从支撑体的表面90°，倾斜柱状结构各自具有1以上的纵横比，该方法包括通过倾斜沉积工艺在支撑体的表面上形成倾斜柱状结构。

公开(公告)号：US07651769B2

公开(公告)日：2010-01-26

申请号：US11835908

申请日：2007-08-08

Applicant: Robert S. Dubrow

Inventor： Robert S. Dubrow

IPC: A61B17/03 ,  A61B17/08

CPC classification number: B81C3/008 ,  A61B17/00 ,  A61B17/00491 ,  B82Y30/00 ,  C09J5/00 ,  C09J7/00 ,  C09J2201/626 ,  C09J2400/123 ,  H01L23/373 ,  H01L2924/0002 ,  H01L2924/09701 ,  Y10S977/762 ,  Y10S977/766 ,  Y10S977/902 ,  Y10S977/931 ,  Y10S977/962 ,  Y10S977/963 ,  Y10T156/10 ,  Y10T428/23993 ,  Y10T428/24008 ,  Y10T428/26 ,  Y10T428/2913 ,  Y10T428/2922 ,  Y10T428/2925 ,  H01L2924/00

Abstract: This invention provides novel nanofibers and nanofiber structures which posses adherent properties, as well as the use of such nanofibers and nanofiber comprising structures in the coupling and/or joining together of articles or material.

Abstract translation: 本发明提供了新颖的纳米纤维和纳米纤维结构，其具有粘附性能，以及在物品或材料的联接和/或连接在一起的这种纳米纤维和纳米纤维包含结构的用途。

公开(公告)号：US20080070002A1

公开(公告)日：2008-03-20

申请号：US11843619

申请日：2007-08-22

Applicant: Carmel Majidi ,  Richard Groff ,  Ronald Fearing

Inventor： Carmel Majidi ,  Richard Groff ,  Ronald Fearing

IPC: B32B5/00

CPC classification number: C09J9/00 ,  A44B18/0015 ,  C09J2201/626 ,  Y10T428/24355

Abstract: A fabricated nano-structure includes a substrate, a supporting stalk, a node, and at least two spatular plate portions. The supporting stalk has a first end opposite a second end. The first end of the supporting stalk is connected to the substrate. The supporting stalk has a diameter range of about 50 nanometers to about 2 microns. A node is disposed at the second end of the supporting stalk. At least two spatular plate portions are connected to the node. The at least two spatular plate portions have planar geometries and are radially distributed about the node. The at least two spatular plate portions has a ratio of a maximum plate thickness to a maximum plate length of at most about 1:20. The maximum plate length is measured along a line from a boundary of the spatular plate portion to a centroid of the node. The maximum plate length is at least about 100 nanometers. The at least two spatular plate portion adhere to a contact surface using intermolecular forces when the spatular plate portions are in contact with the contact surface.

Abstract translation: 制造的纳米结构包括基底，支撑杆，节点和至少两个舟形板部分。 支撑杆具有与第二端相对的第一端。 支撑杆的第一端连接到基板。 支撑茎具有约50纳米至约2微米的直径范围。 节点设置在支撑杆的第二端。 至少两个盘形板部分连接到节点。 至少两个舟形板部分具有平面几何形状并且围绕节点径向分布。 所述至少两个舟形板部分具有最大板厚度与最大板长度的比率至多约1:20。 最大板长度沿着从瓦片板部分的边界到节点的质心的线测量。 最大板长度为至少约100纳米。 当所述棘爪板部分与所述接触表面接触时，所述至少两个棘爪板部分使用分子间力粘附到接触表面。

公开(公告)号：US07132161B2

公开(公告)日：2006-11-07

申请号：US10464830

申请日：2003-06-17

Applicant: Timothy R. Knowles ,  Christopher L. Seaman

Inventor： Timothy R. Knowles ,  Christopher L. Seaman

IPC: B82B1/00 ,  B82B3/00

CPC classification number: C09J7/00 ,  B08B1/00 ,  B08B7/0028 ,  B82Y10/00 ,  B82Y30/00 ,  C09J2201/626 ,  F28F3/022 ,  H01L23/36 ,  H01L23/373 ,  H01L23/4275 ,  H01L2924/0002 ,  Y10S428/903 ,  Y10T428/23957 ,  Y10T428/23993 ,  Y10T428/24132 ,  Y10T428/2913 ,  Y10T428/292 ,  Y10T428/2935 ,  Y10T428/294 ,  Y10T428/298 ,  Y10T442/603 ,  Y10T442/608 ,  Y10T442/614 ,  H01L2924/00

Abstract: A fiber velvet comprising nano-size fibers or nanofibrils attached to micro-size fibers is disclosed. Methods of manufacturing the velvet as well as various uses of the velvet are also described. For example, the fiber velvet can be used as a thermal interface or as an adhesive material. The nanofibrils may be attached to a flat base or membrane, or may be attached to the tip portions of the micro-size or larger diameter fibers. Various attributes of the micro-size fibers and of the nano-size fibers, for example, geometry (e.g. size, length, packing density) material type (e.g. carbon, metal, polymer, or ceramic) and properties (e.g. conductivity, modulus, surface energy, dielectric constant, surface roughness) can be selected depending on the desired attributes of the fiber velvet. The nanofibrils have a diameter of less than about 1 micron, and may advantageously be formed from single walled and/or multi-walled carbon nanotubes.

公开(公告)号：US20060213599A1

公开(公告)日：2006-09-28

申请号：US11441472

申请日：2006-05-26

Applicant: Timothy Knowles ,  Christopher Seaman

Inventor： Timothy Knowles ,  Christopher Seaman

IPC: B32B37/00

CPC classification number: C09J7/00 ,  B08B1/00 ,  B08B7/0028 ,  B82Y10/00 ,  B82Y30/00 ,  C09J2201/626 ,  F28F3/022 ,  H01L23/36 ,  H01L23/373 ,  H01L23/4275 ,  H01L2924/0002 ,  Y10S428/903 ,  Y10T428/23957 ,  Y10T428/23993 ,  Y10T428/24132 ,  Y10T428/2913 ,  Y10T428/292 ,  Y10T428/2935 ,  Y10T428/294 ,  Y10T428/298 ,  Y10T442/603 ,  Y10T442/608 ,  Y10T442/614 ,  H01L2924/00

Abstract: A fiber velvet comprising nano-size fibers or nanofibrils attached to micro-size fibers is disclosed. Methods of manufacturing the velvet as well as various uses of the velvet are also described. For example, the fiber velvet can be used as a thermal interface or as an adhesive material. The nanofibrils may be attached to a flat base or membrane, or may be attached to the tip portions of the micro-size or larger diameter fibers. Various attributes of the micro-size fibers and of the nano-size fibers, for example, geometry (e.g. size, length, packing density) material type (e.g. carbon, metal, polymer, or ceramic) and properties (e.g. conductivity, modulus, surface energy, dielectric constant, surface roughness) can be selected depending on the desired attributes of the fiber velvet. The nanofibrils have a diameter of less than about 1 micron, and may advantageously be formed from single walled and/or multi-walled carbon nanotubes.

Abstract translation: 公开了包含连接到微尺寸纤维的纳米尺寸纤维或纳米纤丝的纤维天鹅绒。 还描述了天鹅绒的制造方法以及天鹅绒的各种用途。 例如，纤维天鹅绒可以用作热界面或粘合剂材料。 纳米纤丝可以连接到平坦的基底或膜上，或者可以附着到微尺寸或更大直径纤维的末端部分。 微尺寸纤维和纳米尺寸纤维的各种属性，例如几何形状（例如尺寸，长度，包装密度）材料类型（例如碳，金属，聚合物或陶瓷）和性质（例如导电率，模量， 表面能，介电常数，表面粗糙度）可以根据纤维天鹅绒的期望属性来选择。 纳米原纤维具有小于约1微米的直径，并且可以有利地由单壁和/或多壁碳纳米管形成。

公开(公告)号：US20050181170A1

公开(公告)日：2005-08-18

申请号：US11080037

申请日：2005-03-14

Applicant: Ronald Fearing ,  Metin Setti

Inventor： Ronald Fearing ,  Metin Setti

IPC: A44B18/00 ,  B29C33/42 ,  B81C1/00 ,  B32B3/06

CPC classification number: A44B18/0003 ,  A44B18/0049 ,  A44B18/0061 ,  B08B1/00 ,  B08B7/0028 ,  B29C33/42 ,  B29L2031/756 ,  B81B3/0059 ,  B81B2203/0361 ,  B82Y30/00 ,  C09J7/00 ,  C09J2201/626 ,  F16B2/005 ,  F16B5/07 ,  Y10S977/84 ,  Y10T24/27 ,  Y10T24/2742 ,  Y10T428/23943 ,  Y10T428/24008 ,  Y10T428/24174 ,  Y10T428/24355 ,  Y10T428/28 ,  Y10T428/2913 ,  Y10T428/2973 ,  Y10T428/2976 ,  Y10T428/2978 ,  Y10T428/298

Abstract: A fabricated microstructure comprising at least one protrusion capable of providing an adhesive force at a surface of between about 60 and 2,000 nano-Newtons. A stalk supports the protrusion at an oblique angle relative to a supporting surface. The microstructure can adhere to different surfaces.

公开(公告)号：US20050148984A1

公开(公告)日：2005-07-07

申请号：US10747923

申请日：2003-12-29

Applicant: Jeffrey Lindsay ,  Fung-Jou Chen ,  Lisha Yu ,  Nadezhda Efremova

Inventor： Jeffrey Lindsay ,  Fung-Jou Chen ,  Lisha Yu ,  Nadezhda Efremova

IPC: A61F13/56 ,  A61F13/58 ,  A61F13/15

CPC classification number: A61F13/58 ,  A61F13/5611 ,  A61F13/5622 ,  C09J7/00 ,  C09J2201/24 ,  C09J2201/626 ,  Y10T428/24 ,  Y10T428/24008 ,  Y10T428/24017

Abstract: A disposable absorbent article has a nanofabricated attachment means having adhesive hairs disposed on a substrate wherein the hairs are effective to adhesively engage an opposing surface having a polymeric film or a fibrous web. In another embodiment, the absorbent article has a gecko-like fastener including a substrate and a plurality of adhesive hairs arising from the substrate having a base section, midsection, and top section, a height of about 0.5 microns to about 8 millimeters, and a diameter greater than about 0.05 microns.

Abstract translation: 一次性吸收制品具有纳米级附着装置，其具有设置在基底上的粘性毛发，其中毛发有效地粘合地与具有聚合物膜或纤维网的相对表面接合。 在另一个实施方案中，吸收制品具有壁虎状紧固件，其包括基底和从基底产生的多个粘附毛发，其具有基部，中部和顶部，约0.5微米至约8毫米的高度，以及 直径大于约0.05微米。

公开(公告)号：US20040071870A1

公开(公告)日：2004-04-15

申请号：US10464830

申请日：2003-06-17

Inventor： Timothy R. Knowles ,  Christopher L. Seaman

IPC: A46D001/00 ,  B32B005/00 ,  B05D005/00 ,  B32B031/00

CPC classification number: C09J7/00 ,  B08B1/00 ,  B08B7/0028 ,  B82Y10/00 ,  B82Y30/00 ,  C09J2201/626 ,  F28F3/022 ,  H01L23/36 ,  H01L23/373 ,  H01L23/4275 ,  H01L2924/0002 ,  Y10S428/903 ,  Y10T428/23957 ,  Y10T428/23993 ,  Y10T428/24132 ,  Y10T428/2913 ,  Y10T428/292 ,  Y10T428/2935 ,  Y10T428/294 ,  Y10T428/298 ,  Y10T442/603 ,  Y10T442/608 ,  Y10T442/614 ,  H01L2924/00

Abstract: A fiber velvet comprising nano-size fibers or nanofibrils attached to micro-size fibers is disclosed. Methods of manufacturing the velvet as well as various uses of the velvet are also described. For example, the fiber velvet can be used as a thermal interface or as an adhesive material. The nanofibrils may be attached to a flat base or membrane, or may be attached to the tip portions of the micro-size or larger diameter fibers. Various attributes of the micro-size fibers and of the nano-size fibers, for example, geometry (e.g. size, length, packing density) material type (e.g. carbon, metal, polymer, or ceramic) and properties (e.g. conductivity, modulus, surface energy, dielectric constant, surface roughness) can be selected depending on the desired attributes of the fiber velvet. The nanofibrils have a diameter of less than about 1 micron, and may advantageously be formed from single walled and/or multi-walled carbon nanotubes.

Abstract translation: 公开了包含连接到微尺寸纤维的纳米尺寸纤维或纳米纤丝的纤维天鹅绒。 还描述了天鹅绒的制造方法以及天鹅绒的各种用途。 例如，纤维天鹅绒可以用作热界面或粘合剂材料。 纳米纤丝可以连接到平坦的基底或膜上，或者可以附着到微尺寸或更大直径纤维的末端部分。 微尺寸纤维和纳米尺寸纤维的各种属性，例如几何形状（例如尺寸，长度，包装密度）材料类型（例如碳，金属，聚合物或陶瓷）和性质（例如导电率，模量， 表面能，介电常数，表面粗糙度）可以根据纤维天鹅绒的期望属性来选择。 纳米原纤维具有小于约1微米的直径，并且可以有利地由单壁和/或多壁碳纳米管形成。