公开(公告)号：US20130287836A1

公开(公告)日：2013-10-31

申请号：US13819391

申请日：2011-08-30

Applicant: Donald E. Ingber ,  Javier Gomez Fernandez

Inventor： Donald E. Ingber ,  Javier Gomez Fernandez

IPC: A61L15/22 ,  B05D3/10

CPC classification number: A61L27/24 ,  A61L15/225 ,  A61L15/28 ,  A61L15/325 ,  A61L15/38 ,  A61L15/425 ,  A61L15/44 ,  A61L15/52 ,  A61L27/20 ,  A61L27/227 ,  A61L27/34 ,  A61L27/48 ,  A61L27/54 ,  A61L27/56 ,  B05D3/104 ,  C08L1/02 ,  C08L3/02 ,  C08L5/00 ,  C08L5/08 ,  C08L5/10 ,  C08L89/00

Abstract: The present invention is directed to a composite laminar material with high mechanical strength and methods of fabricating the material. The invention also provides a method of attaching a medical implant device to tissue.

Abstract translation: 本发明涉及一种具有高机械强度的复合层状材料及其制造方法。 本发明还提供了将医疗植入装置附接到组织的方法。

公开(公告)号：US20130209951A1

公开(公告)日：2013-08-15

申请号：US13880277

申请日：2011-10-20

Applicant: Jeffrey Robert Piascik ,  Brian R. Stoner

Inventor： Jeffrey Robert Piascik ,  Brian R. Stoner

IPC: A61C7/00 ,  A61K6/08 ,  A61C8/00 ,  A61K6/02 ,  A61C5/04 ,  A61C5/02 ,  A61C7/14 ,  A61K6/04 ,  A61C5/08

CPC classification number: A61C8/0015 ,  A61C5/30 ,  A61C5/40 ,  A61C5/50 ,  A61C5/70 ,  A61C5/77 ,  A61C7/00 ,  A61C7/14 ,  A61C8/00 ,  A61C13/0006 ,  A61C13/225 ,  A61K6/0029 ,  A61K6/0205 ,  A61K6/0225 ,  A61K6/0235 ,  A61K6/024 ,  A61K6/04 ,  A61K6/0687 ,  A61K6/08 ,  A61L27/06 ,  A61L27/10 ,  A61L27/105 ,  A61L27/14 ,  A61L27/50 ,  A61L2400/18 ,  A61L2430/12 ,  B05D3/0433 ,  B05D3/104 ,  B05D3/141 ,  C08L83/16

Abstract: A fluoride treated medical implant, such as a dental component, is provided, the medical implant comprising fluorinated metal oxide on the substrate surface. A method for the preparation of such treated implants is also provided, the method involving exposure of the medical implant to a fluorine-containing reagent. A dental structure is also provided, which includes a first dental component comprising a fluorinated metal oxide layer on its surface, a silane coupling agent, a dental cement, and a second dental component having a surface bonded to the dental cement. An additional dental structure, which includes a first dental component comprising a fluorinated metal oxide layer on its surface, a dental cement, and a second dental component having a surface bonded to the dental cement is also provided.

Abstract translation: 提供氟化物处理的医疗植入物，例如牙科部件，医疗植入物在基底表面上包括氟化金属氧化物。 还提供了用于制备这种处理的植入物的方法，该方法涉及将医用植入物暴露于含氟试剂。 还提供了一种牙科结构，其包括其表面上包含氟化金属氧化物层的第一牙科成分，硅烷偶联剂，牙科粘合剂和具有粘合到牙科粘固剂的表面的第二牙齿部件。 还提供另外的牙科结构，其包括在其表面上包含氟化金属氧化物层的第一牙科部件，牙科牙科粘合剂和具有粘合到牙科粘固剂的表面的第二牙科部件。

公开(公告)号：US20130089735A1

公开(公告)日：2013-04-11

申请号：US13704611

申请日：2011-11-29

Applicant: Sang-Ouk Kim ,  Won-jun Lee ,  Duck-hyun Lee ,  Jin-ah Lee

Inventor： Sang-Ouk Kim ,  Won-jun Lee ,  Duck-hyun Lee ,  Jin-ah Lee

IPC: B05D1/18

CPC classification number: B05D1/18 ,  B05D3/002 ,  B05D3/104 ,  B82Y30/00 ,  B82Y40/00 ,  C01B32/16 ,  C01B32/168 ,  Y10T428/2918 ,  Y10T428/2991

Abstract: A method for manufacturing an inorganic-nano structure composite, a method for manufacturing a cabon nanotube composite by using the same, and a carbon nanotube composite manufactured by the same are provided. The method for manufacturing the inorganic-nano structure composite comprises a step of doping pentavalent elements on the nanostructure; and a step of growing the inorganic material from the doping points of the pentavalent elements by dipping the nanostructure on which the pentavalent elements are doped into a precursor solution of the inorganic material, and according to the present invention the pentavalent elements such as nitrogen are doped on the nanostructure and is utilized as the crystallization point of the inorganic material, instead of forming the separate coating layer to the organic-based nanostructure, or binding the binding group to the surface.

Abstract translation: 提供一种无机纳米结构复合体的制造方法，使用该方法制造碳纳米管复合体的方法和由其制造的碳纳米管复合体。 制备无机纳米结构复合材料的方法包括在纳米结构上掺杂五价元素的步骤; 以及通过将掺杂有五价元素的纳米结构浸渍在无机材料的前体溶液中，从五价元素的掺杂点生长无机材料的步骤，根据本发明，将五价元素如氮掺杂 并且被用作无机材料的结晶点，而不是形成分离的涂层到有机基纳米结构，或将结合基团结合到表面。

公开(公告)号：US20130084392A1

公开(公告)日：2013-04-04

申请号：US13250872

申请日：2011-09-30

Applicant: Enrico Magni ,  Suresh Gupta ,  Mark Gahagan ,  Eric Lenz ,  Mike Ravkin

Inventor： Enrico Magni ,  Suresh Gupta ,  Mark Gahagan ,  Eric Lenz ,  Mike Ravkin

IPC: B05D5/00 ,  B05D1/26 ,  B05C11/00 ,  B05C5/00

CPC classification number: H01L21/67086 ,  B05C5/0254 ,  B05C11/1036 ,  B05C11/1039 ,  B05D3/002 ,  B05D3/104 ,  H01L21/6776 ,  Y10S134/902

Abstract: A method for meniscus processing a substrate is provided. The method initiates with generating a meniscus spanning at least a length of the substrate. A pre-wetting liquid or vapor is dispensed. A substrate is moved through the dispensed pre-wetting liquid or vapor and the meniscus. The dispensed pre-wetting vapor condenses a pre-wetting liquid over a region of the substrate adjacent to a region of the substrate where the meniscus is generated. The pre-wetting liquid is deposited without substantially generating surface flow of the pre-wetting liquid on the substrate, and the pre-wetting liquid prevents the leading edge of the meniscus from contacting a dry surface region of the substrate.

Abstract translation: 提供了一种用于弯液面处理衬底的方法。 该方法开始产生跨越衬底的至少一段长度的弯液面。 分配预润湿液体或蒸汽。 将基底移动通过分配的预润湿液体或蒸气和弯液面。 分配的预润湿蒸汽将预润湿液体在基板的与生成弯月面的区域相邻的区域上冷凝。 沉积预润湿液体而基本上不会在基底上产生预润湿液体的表面流，并且预润湿液体防止弯月面的前缘接触基底的干表面区域。

公开(公告)号：US20120196035A1

公开(公告)日：2012-08-02

申请号：US13262559

申请日：2010-04-02

Applicant: Guy Deniau ,  Fabien Nekelson ,  Brigitte Mouanda

Inventor： Guy Deniau ,  Fabien Nekelson ,  Brigitte Mouanda

IPC: B05D3/00 ,  C25D7/12 ,  B05D5/00 ,  C25D5/56 ,  C03C17/32 ,  B05D5/06

CPC classification number: B05D1/34 ,  B05D3/007 ,  B05D3/104 ,  B05D5/083 ,  B05D2203/35

Abstract: A method for modifying the surface energy of at least one surface of a solid is provided. The method may comprise a step consisting of grafting, on the surface, a polymeric organic film consisting of graft polymers, each polymer having a first unit bound directly to the surface derived from a cleavable aryl salt and at least one other unit of the polymer chain derived from a component selected from the group consisting of a cleavable fluorinated aryl salt, a fluorinated (meth)acrylate and a vinyl-terminated siloxane. In addition, a kit for implementation of the method is provided.

Abstract translation: 提供了一种用于改变固体的至少一个表面的表面能的方法。 该方法可以包括在表面上接枝由接枝聚合物组成的聚合物有机膜的步骤，每个聚合物具有直接与衍生自可切割芳基盐的表面结合的第一单元和聚合物链的至少一个其它单元 衍生自选自可切割的氟化芳基盐，氟化（甲基）丙烯酸酯和乙烯基封端的硅氧烷的组分的组分。 另外，提供了用于实施该方法的工具包。

公开(公告)号：US20120021121A1

公开(公告)日：2012-01-26

申请号：US13190291

申请日：2011-07-25

Applicant: Sally Sirkin Lewis

Inventor： Sally Sirkin Lewis

IPC: C23C16/52 ,  B05D3/12 ,  B05D3/10

CPC classification number: B05D5/00 ,  B05D1/02 ,  B05D3/104 ,  B05D3/12 ,  B05D5/065 ,  B05D7/06

Abstract: Methods of producing an ombré finish for materials may comprise applying a stain to the surface of a material in a first concentration toward a first part of said surface and in a second concentration toward a second part of said surface, blending said stain from said first part to said second part to create a gradual transition in concentration, and sealing said surface. Said methods may also comprise applying a stain substantially uniformly to the surface of a material, removing said stain from said surface so as to create a gradual transition in concentration of said stain, and sealing said surface. Said methods may further comprise the steps of comparing the color of said material to a target color and toning said material until said color of said material matches said target color.

Abstract translation: 生产材料的整理方法可以包括向所述表面的第一部分以第一浓度向第一浓度的材料表面施加污渍并朝向所述表面的第二部分以第二浓度施加污渍，将所述污渍从所述第一部分 到第二部分，以形成集中的逐渐过渡，并密封所述表面。 所述方法还可以包括将污渍基本上均匀地施加到材料的表面，从所述表面去除所述污渍，以便产生所述污渍浓度的逐渐过渡，并密封所述表面。 所述方法还可以包括以下步骤：将所述材料的颜色与目标颜色进行比较，并调色所述材料，直到所述材料的颜色与所述目标颜色相匹配。

公开(公告)号：US20100291167A1

公开(公告)日：2010-11-18

申请号：US12741967

申请日：2009-09-28

Applicant: Hironori Iida ,  Seiichiro Tabata ,  Shinichiro Yamada ,  Tsutomu Noguchi ,  Shun Yamanoi

Inventor： Hironori Iida ,  Seiichiro Tabata ,  Shinichiro Yamada ,  Tsutomu Noguchi ,  Shun Yamanoi

IPC: A61K8/02 ,  B32B3/26 ,  B01J21/18 ,  B05D3/00 ,  B05D5/12 ,  B05D5/06 ,  B05D5/00 ,  H01F1/04

CPC classification number: B01J21/18 ,  A61K8/19 ,  A61K8/97 ,  A61K47/06 ,  A61K2800/413 ,  A61K2800/522 ,  A61K2800/56 ,  A61L9/01 ,  A61L9/205 ,  A61Q19/08 ,  B01D53/02 ,  B01D53/885 ,  B01D2253/102 ,  B01D2253/306 ,  B01D2253/311 ,  B01D2255/1021 ,  B01D2255/1023 ,  B01D2255/104 ,  B01D2255/106 ,  B01D2255/20761 ,  B01D2255/702 ,  B01D2255/802 ,  B01D2255/9205 ,  B01D2255/9207 ,  B01J20/02 ,  B01J20/0211 ,  B01J20/0229 ,  B01J20/0244 ,  B01J20/06 ,  B01J20/20 ,  B01J20/28009 ,  B01J20/28011 ,  B01J20/2803 ,  B01J20/28057 ,  B01J20/28069 ,  B01J20/28083 ,  B01J20/3204 ,  B01J20/3236 ,  B01J21/063 ,  B01J35/004 ,  B01J35/1014 ,  B01J35/1038 ,  B01J37/0203 ,  B01J2220/485 ,  B05D1/18 ,  B05D3/0473 ,  B05D3/0486 ,  B05D3/104 ,  C01B32/00 ,  C01B32/30 ,  C02F1/283 ,  C02F1/288 ,  C02F2103/007 ,  C25D3/56 ,  C25D7/00 ,  H01B1/04 ,  H01F1/01 ,  H01L31/0264 ,  Y10T428/249969

Abstract: Provided is a porous carbon material composite formed of a porous carbon material and a functional material and equipped with high functionality. A porous carbon material composite is formed of (A) a porous carbon material obtainable from a plant-derived material having a silicon (Si) content of 5 wt % or higher as a raw material, said porous carbon material having a silicon (Si) content of 1 wt % or lower, and (B) a functional material adhered on the porous carbon material, and has a specific surface area of 10 m2/g or greater as determined by the nitrogen BET method and a pore volume of 0.1 cm3/g or greater as determined by the BJH method and MP method.

Abstract translation: 提供由多孔碳材料和功能材料形成并具有高功能性的多孔碳材料复合材料。 多孔碳材料复合体由（A）以硅（Si）含量为5重量％以上的植物来源材料为原料得到的多孔碳材料形成，所述多孔碳材料具有硅（Si） 含量为1重量％以下，（B）附着在多孔碳材料上的功能性材料，通过氮BET法测定的比表面积为10m 2 / g以上，孔体积为0.1cm 3 / g或更大，由BJH法和MP法测定。

公开(公告)号：US20090130314A1

公开(公告)日：2009-05-21

申请号：US12313416

申请日：2008-11-19

Applicant: Bernard D. Bauman ,  Kelly L. Williams

Inventor： Bernard D. Bauman ,  Kelly L. Williams

IPC: B05D3/10

CPC classification number: B05D7/04 ,  B05D3/0493 ,  B05D3/067 ,  B05D3/101 ,  B05D3/104 ,  B05D7/06

Abstract: The present invention describes a system for modifying polymer composite surfaces to achieve 100% adhesion to paints, coatings, adhesives, or inks. The adhesion modification technology overcomes the deficiencies of energy-based treatment technologies common with wood-like polymer composites produced using various types of fillers and reinforcements, and specifically those containing cellulose and lignin.

Abstract translation: 本发明描述了一种用于改进聚合物复合材料表面以实现与油漆，涂料，粘合剂或油墨100％粘附的系统。 粘合改性技术克服了使用各种类型的填料和增强材料生产的木质聚合物复合材料，特别是含有纤维素和木质素的能量基处理技术的缺点。

公开(公告)号：US20090074834A1

公开(公告)日：2009-03-19

申请号：US12210018

申请日：2008-09-12

Applicant: Sean R. Kirkpatrick ,  Richard C. Svrluga

Inventor： Sean R. Kirkpatrick ,  Richard C. Svrluga

IPC: A61K9/00

CPC classification number: B05D3/068 ,  B05D3/104 ,  B05D5/00 ,  H01J2237/0812

Abstract: Irradiation of a surface of a material with a gas cluster ion beam modifies the wettability of the surface. The wettability may be increased or decreased dependent on the characteristics of the gas cluster ion beam. Improvements in wettability of a surface by the invention exceed those obtained by conventional plasma cleaning or etching. The improvements may be applied to surfaces of medical devices, such as vascular stents for example, and may be used to enable better wetting of medical device surfaces with liquid drugs in preparation for adhesion of the drug to the device surfaces. A mask may be used to limit processing to a portion of the surface. Medical devices formed by using the methods of the invention are disclosed.

Abstract translation: 用气体簇离子束照射材料的表面改变了表面的润湿性。 根据气体簇离子束的特性，润湿性可以增加或减少。 通过本发明的表面润湿性的改善超过了通过常规等离子体清洗或蚀刻获得的那些。 这些改进可以应用于诸如血管支架的医疗装置的表面，并且可以用于使液体药物更好地润湿医疗装置表面，以准备将药物粘附到装置表面。 可以使用掩模来将处理限制到表面的一部分。 公开了通过使用本发明的方法形成的医疗装置。

公开(公告)号：US20080063693A1

公开(公告)日：2008-03-13

申请号：US10891885

申请日：2004-07-15

Applicant: Guy Cook ,  Matt Trebella

Inventor： Guy Cook ,  Matt Trebella

IPC: C09D5/16 ,  A61K33/38

CPC classification number: A01N59/16 ,  A01N25/10 ,  A61L27/34 ,  A61L27/54 ,  A61L29/085 ,  A61L29/16 ,  A61L31/10 ,  A61L31/16 ,  A61L2300/104 ,  A61L2300/406 ,  A61L2300/606 ,  B05D3/104 ,  B05D3/142 ,  C09D5/14

Abstract: The present invention provides antimicrobial coatings for coating substrate surfaces, particularly medical devices, for preventing bacterial adhesion and biofilm formation by inhibiting microbial growth and proliferation on the coating surface. The antimicrobial coatings are composed of a hydrogel and a bioactive agent including a substantially water-insoluble antimicrobial metallic material that is solubilized within the coating. Antimicrobial coating formulations for obtaining such coatings, and coating methods are also described.

Abstract translation: 本发明提供了用于通过抑制微生物在涂层表面上的生长和增殖来涂覆基底表面，特别是医疗装置用于防止细菌粘附和生物膜形成的抗微生物涂层。 抗微生物涂层由水凝胶和生物活性剂组成，包括溶解在涂层内的基本上不溶于水的抗微生物金属材料。 还描述了用于获得这种涂层的抗菌涂料制剂和涂布方法。