公开(公告)号：US09011720B2

公开(公告)日：2015-04-21

申请号：US13852048

申请日：2013-03-28

Applicant: Bruce Gardiner Aitken ,  Michael Edward Badding ,  Nicholas Francis Borrelli ,  Nadja Teresia Lonnroth ,  Mark Alejandro Quesada

Inventor： Bruce Gardiner Aitken ,  Michael Edward Badding ,  Nicholas Francis Borrelli ,  Nadja Teresia Lonnroth ,  Mark Alejandro Quesada

IPC: C09K11/02 ,  C03C4/12 ,  C03C3/15 ,  C03C3/247 ,  C03C3/19 ,  C03C3/068 ,  C03C3/066 ,  C03C3/14 ,  C03C3/145 ,  C03C3/23 ,  C03C8/24 ,  C03C14/00 ,  C03C17/00 ,  H01L33/50

CPC classification number: C03C14/006 ,  C03B19/02 ,  C03B19/06 ,  C03B2201/62 ,  C03C3/066 ,  C03C3/068 ,  C03C3/14 ,  C03C3/145 ,  C03C3/15 ,  C03C3/19 ,  C03C3/23 ,  C03C3/247 ,  C03C4/12 ,  C03C8/24 ,  C03C17/007 ,  C03C2204/00 ,  C03C2214/04 ,  C03C2214/16 ,  C03C2217/452 ,  C03C2217/47 ,  C03C2217/48 ,  C09K11/02 ,  C09K11/7774 ,  H01L33/50 ,  H01L33/501 ,  H01L2224/48091 ,  H01L2924/181 ,  H01L2924/00014 ,  H01L2924/00012

Abstract: Embodiments are directed to glass frits containing phosphors that can be used in LED lighting devices and for methods associated therewith for making the phosphor containing glass frit and their use in glass articles, for example, LED devices.

Abstract translation: 实施例涉及含有可用于LED照明装置的荧光体的玻璃料，以及用于制造含玻璃料的荧光体及其用于玻璃制品例如LED装置的方法。

公开(公告)号：US20130149496A1

公开(公告)日：2013-06-13

申请号：US13693379

申请日：2012-12-04

Applicant: Prantik Mazumder ,  Valerio Pruneri ,  Mark Alejandro Quesada ,  Wageesha Senaratne ,  Lili Tian

Inventor： Prantik Mazumder ,  Valerio Pruneri ,  Mark Alejandro Quesada ,  Wageesha Senaratne ,  Lili Tian

IPC: C09D7/12

CPC classification number: G02B1/18 ,  B82Y30/00 ,  C09D7/66 ,  G02B27/0006 ,  G06F3/041 ,  G06F2203/04103 ,  Y10T428/24372

Abstract: Described herein are various methods for making textured articles, textured articles that have improved fingerprint resistance, and methods of using the textured articles. The textured articles generally include a substrate and at least two different sets of nanostructured topographical features that are created in or on a surface of the substrate. Each set of nanostructured topographical features will have at least one average dimensional attribute that is different from that of any other set of nanostructured topographical features.

Abstract translation: 本文描述了用于制造纹理制品，具有改善的耐指纹性的纹理制品以及使用纹理制品的方法的各种方法。 纹理制品通常包括衬底和在衬底的表面中或表面上形成的至少两组不同的纳米结构化形貌特征。 每组纳米结构的地形特征将具有与任何其他一组纳米结构化地形特征不同的至少一个平均尺寸属性。

公开(公告)号：US09050621B2

公开(公告)日：2015-06-09

申请号：US13748840

申请日：2013-01-24

Applicant: Mark Alejandro Quesada ,  Jianguo Wang ,  Ying Zhang

Inventor： Mark Alejandro Quesada ,  Jianguo Wang ,  Ying Zhang

IPC: C25F3/00 ,  H01B13/00 ,  B44C1/22 ,  H01L21/302 ,  H01L21/461 ,  B05D5/00 ,  B82Y40/00 ,  G03F7/00 ,  B82Y10/00

CPC classification number: B05D5/00 ,  B82Y10/00 ,  B82Y40/00 ,  G03F7/0002 ,  Y10S977/888

Abstract: Methods for fabricating a nanopillared substrate surface include applying a polymer solution containing an amphiphilic block copolymer and a hydrophilic homopolymer to a substrate surface. The amphiphilic block copolymer and the hydrophilic homopolymer in the polymer solution self-assemble on the substrate surface to form a self-assembled polymer layer having hydrophobic domains adjacent to the substrate surface and hydrophilic domains extending into the self-assembled polymer layer. At least a portion of the hydrophilic domains may be removed to form a plurality of pores in the exposed surface of the self-assembled polymer layer. A protective layer may be deposited on the exposed surface as a mask for etching through the plurality of pores to form through-holes. A nanopillar-forming material may be deposited onto the substrate surface via the through-holes. Then, the remaining portion of the self-assembled polymer layer may be removed to expose a nanopillared substrate surface.

Abstract translation: 制造纳米圆柱形基底表面的方法包括将含有两亲嵌段共聚物和亲水均聚物的聚合物溶液施加到基底表面。 聚合物溶液中的两亲性嵌段共聚物和亲水均聚物自组装在基材表面上以形成具有与基材表面相邻的疏水区域和延伸到自组装聚合物层中的亲水区域的自组装聚合物层。 亲水区域的至少一部分可以被去除以在自组装聚合物层的暴露表面中形成多个孔。 可以在暴露的表面上沉积保护层作为用于通过多个孔蚀刻的掩模以形成通孔。 可以通过通孔将纳米柱形成材料沉积到衬底表面上。 然后，可以除去自组装聚合物层的剩余部分以暴露出纳米圆柱形的衬底表面。

公开(公告)号：US08563113B2

公开(公告)日：2013-10-22

申请号：US12763541

申请日：2010-04-20

Applicant: Victoria Ann Edwards ,  Cynthia Baker Giroux ,  Shari Elizabeth Koval ,  Mark Alejandro Quesada ,  Wanda Janina Walczak

Inventor： Victoria Ann Edwards ,  Cynthia Baker Giroux ,  Shari Elizabeth Koval ,  Mark Alejandro Quesada ,  Wanda Janina Walczak

IPC: B32B27/00 ,  B32B1/04 ,  B32B7/00 ,  B32B37/00 ,  B32B27/36

CPC classification number: B32B3/04 ,  B32B9/045 ,  B32B27/283 ,  B32B27/32 ,  B32B27/36 ,  B32B2255/20 ,  B32B2307/412 ,  B32B2307/546 ,  B32B2307/554 ,  B32B2307/5825 ,  B32B2307/732 ,  B32B2367/00 ,  B32B2439/70 ,  B32B2439/80 ,  B32B2457/12 ,  B32B2457/206 ,  H01L51/5237 ,  H01L51/524 ,  H01L51/5246 ,  H01L51/5256 ,  Y10T156/10 ,  Y10T428/231 ,  Y10T428/239 ,  Y10T428/24 ,  Y10T428/249921 ,  Y10T428/263 ,  Y10T428/31663 ,  Y10T428/31786

Abstract: A free-standing multi-laminate hermetic sheet includes a first carrier film, a hermetic inorganic thin film formed over the first carrier film, and a second carrier film formed over the hermetic inorganic thin film. A workpiece can be hermetically sealed using the multi-laminate sheet, which can be applied to the workpiece in a step separate from a formation step of either the multi-laminate sheet or the workpiece.

Abstract translation: 独立的多层密封薄片包括第一载体膜，形成在第一载体膜上的密封无机薄膜和形成在密封无机薄膜上的第二载体膜。 可以使用可与多层压片或工件的形成步骤分离的步骤施加到工件上的多层压片材气密密封工件。

公开(公告)号：US20100285272A1

公开(公告)日：2010-11-11

申请号：US12625020

申请日：2009-11-24

Applicant: Shari Elizabeth Koval ,  Mark Alejandro Quesada ,  Wageesha Senaratne

Inventor： Shari Elizabeth Koval ,  Mark Alejandro Quesada ,  Wageesha Senaratne

IPC: B32B3/30 ,  B05D5/00 ,  C23C14/34

CPC classification number: C03C17/42 ,  C03C3/083 ,  C03C3/091 ,  C03C15/00 ,  C03C17/23 ,  C03C19/00 ,  C03C21/002 ,  C03C2217/75 ,  C03C2217/76 ,  C03C2217/77 ,  C03C2218/34 ,  Y10T428/24355 ,  Y10T428/315

Abstract: A glass substrate having at least one surface with engineered properties that include hydrophobicity, oleophobicity, anti-stick or adherence of particulate or liquid matter, durability, and transparency (i.e., haze

Abstract translation: 具有至少一个具有工程特性的表面的玻璃基底，其包括颗粒或液体物质的疏水性，疏油性，抗粘附性或粘附性，耐久性和透明度（即雾度<10％）。 该表面包括多组拓扑特征，它们一起具有防止几何形状，其防止包含水和皮脂油中的至少一种的液滴的接触角和钉扎。

公开(公告)号：US07749811B2

公开(公告)日：2010-07-06

申请号：US12553469

申请日：2009-09-03

Applicant: Bruce Gardiner Aitken ,  Chong Pyung An ,  Benjamin Zain Hanson ,  Mark Alejandro Quesada

Inventor： Bruce Gardiner Aitken ,  Chong Pyung An ,  Benjamin Zain Hanson ,  Mark Alejandro Quesada

IPC: H01L21/00

CPC classification number: H01L51/5253 ,  C23C14/06 ,  H01L31/048 ,  Y02E10/50

Abstract: A method is disclosed for inhibiting oxygen and moisture penetration of a device comprising the steps of depositing a tin phosphate low liquidus temperature (LLT) inorganic material on at least a portion of the device to create a deposited tin phosphate LLT material, and heat treating the deposited LLT material in a substantially oxygen and moisture free environment to form a hermetic seal; wherein the step of depositing the LLT material comprises the use of a resistive heating element comprising tungsten. An organic electronic device is also disclosed comprising a substrate plate, at least one electronic or optoelectronic layer, and a tin phosphate LLT barrier layer, wherein the electronic or optoelectronic layer is hermetically sealed between the tin phosphate LLT barrier layer and the substrate plate. An apparatus is also disclosed having at least a portion thereof sealed with a tin phosphate LLT barrier layer.

Abstract translation: 公开了一种用于抑制装置的氧气和水分渗透的方法，包括以下步骤：在所述装置的至少一部分上沉积磷酸铁低液相线温度（LLT）无机材料以产生沉积的磷酸锡LLT材料，并热处理 沉积的LLT材料在基本上无氧和无水的环境中以形成气密密封; 其中沉积LLT材料的步骤包括使用包含钨的电阻加热元件。 还公开了一种有机电子器件，其包括基板，至少一个电子或光电子层和磷酸锡LLT阻挡层，其中电子或光电子层气密地密封在磷酸铁LLT阻挡层和基板之间。 还公开了一种装置，其至少一部分用磷酸铁LLT阻挡层密封。

公开(公告)号：US20140202984A1

公开(公告)日：2014-07-24

申请号：US13748840

申请日：2013-01-24

Applicant: Mark Alejandro Quesada ,  Jianguo Wang ,  Ying Zhang

Inventor： Mark Alejandro Quesada ,  Jianguo Wang ,  Ying Zhang

IPC: B05D5/00

CPC classification number: B05D5/00 ,  B82Y10/00 ,  B82Y40/00 ,  G03F7/0002 ,  Y10S977/888

Abstract: Methods for fabricating a nanopillared substrate surface include applying a polymer solution containing an amphiphilic block copolymer and a hydrophilic homopolymer to a substrate surface. The amphiphilic block copolymer and the hydrophilic homopolymer in the polymer solution self-assemble on the substrate surface to form a self-assembled polymer layer having hydrophobic domains adjacent to the substrate surface and hydrophilic domains extending into the self-assembled polymer layer. At least a portion of the hydrophilic domains may be removed to form a plurality of pores in the exposed surface of the self-assembled polymer layer. A protective layer may be deposited on the exposed surface as a mask for etching through the plurality of pores to form through-holes. A nanopillar-forming material may be deposited onto the substrate surface via the through-holes. Then, the remaining portion of the self-assembled polymer layer may be removed to expose a nanopillared substrate surface.

Abstract translation: 制造纳米圆柱形基底表面的方法包括将含有两亲嵌段共聚物和亲水均聚物的聚合物溶液施加到基底表面。 聚合物溶液中的两亲性嵌段共聚物和亲水均聚物自组装在基材表面上以形成具有与基材表面相邻的疏水区域和延伸到自组装聚合物层中的亲水区域的自组装聚合物层。 亲水区域的至少一部分可以被去除以在自组装聚合物层的暴露表面中形成多个孔。 可以在暴露的表面上沉积保护层作为用于通过多个孔蚀刻的掩模以形成通孔。 可以通过通孔将纳米柱形成材料沉积到衬底表面上。 然后，可以除去自组装聚合物层的剩余部分以暴露出纳米圆柱形的衬底表面。

公开(公告)号：US08754434B1

公开(公告)日：2014-06-17

申请号：US13751638

申请日：2013-01-28

Applicant: Jacques Gollier ,  Glenn Eric Kohnke ,  Mark Alejandro Quesada ,  James Andrew West

Inventor： Jacques Gollier ,  Glenn Eric Kohnke ,  Mark Alejandro Quesada ,  James Andrew West

IPC: H01L21/00

CPC classification number: H01L51/5253 ,  H01L51/5268

Abstract: A protected organic light emitting diode includes an organic light emitting diode structure formed on a substrate, a hermetic barrier layer formed over at least part of the organic light emitting diode structure, and a light extraction layer. The barrier layer may include a glass material such as a tin fluorophosphate glass, a tungsten-doped tin fluorophosphate glass, a chalcogenide glass, a tellurite glass, a borate glass or a phosphate glass. The light extraction layer, which may be formed over the barrier layer, includes a high refractive index matrix material and at least one of scattering particles dispersed throughout the matrix material and a roughened surface.

Abstract translation: 受保护的有机发光二极管包括形成在衬底上的有机发光二极管结构，在至少部分有机发光二极管结构上形成的气密阻挡层和光提取层。 阻挡层可以包括玻璃材料，例如氟磷酸锡玻璃，掺杂钨的锡氟磷酸盐玻璃，硫族化物玻璃，碲酸盐玻璃，硼酸盐玻璃或磷酸盐玻璃。 可以形成在阻挡层上的光提取层包括高折射率基体材料和分散在整个基体材料中的散射粒子和粗糙化表面中的至少一种。

公开(公告)号：US20140120315A1

公开(公告)日：2014-05-01

申请号：US13660717

申请日：2012-10-25

Applicant: Bruce Gardiner Aitken ,  Chong Pyung An ,  Shari Elizabeth Koval ,  Mark Alejandro Quesada

Inventor： Bruce Gardiner Aitken ,  Chong Pyung An ,  Shari Elizabeth Koval ,  Mark Alejandro Quesada

IPC: B32B17/10 ,  B32B27/34 ,  B05D1/36 ,  B32B27/32 ,  B32B33/00 ,  B32B17/06 ,  B32B27/06

CPC classification number: C03C3/247 ,  B32B17/06 ,  C03C17/42 ,  C08J7/045 ,  C08J2367/02 ,  Y10T428/24364 ,  Y10T428/264 ,  Y10T428/31507 ,  Y10T428/31533 ,  Y10T428/31645

Abstract: A multi-layer thin film laminate comprises a dyad layer including a barrier layer and a decoupling layer formed over a substrate. The barrier layer comprises a hermetic glass material selected from the group consisting of tin fluorophosphate glasses, tungsten-doped tin fluorophosphate glasses, chalcogenide glasses, tellurite glasses, borate glasses and phosphate glasses and the decoupling layer comprises a polymer material.

Abstract translation: 多层薄膜层叠体包括包含阻挡层和在衬底上形成的去耦层的双层。 阻挡层包括选自锡氟磷酸盐玻璃，掺杂钨的锡氟磷酸盐玻璃，硫族化物玻璃，碲酸盐玻璃，硼酸盐玻璃和磷酸盐玻璃的密封玻璃材料，并且解耦层包含聚合物材料。

公开(公告)号：US20100193353A1

公开(公告)日：2010-08-05

申请号：US12755023

申请日：2010-04-06

Applicant: Bruce Gardiner Aitken ,  Chong Pyung An ,  Mark Alejandro Quesada

Inventor： Bruce Gardiner Aitken ,  Chong Pyung An ,  Mark Alejandro Quesada

IPC: C23C14/34

CPC classification number: C23C14/06 ,  C03C3/247 ,  C03C8/24 ,  C03C17/3615 ,  C03C17/3649 ,  C03C17/3671 ,  C03C17/3678 ,  H01L51/5253

Abstract: A sealing method for decreasing the time it takes to hermetically seal a device and the resulting hermetically sealed device (e.g., a hermetically sealed OLED device) are described herein. The sealing method includes the steps of: (1) cooling an un-encapsulated device; (2) depositing a sealing material over at least a portion of the cooled device to form an encapsulated device; and (3) heat treating the encapsulated device to form a hermetically sealed device. In one embodiment, the sealing material is a low liquidus temperature inorganic (LLT) material such as, for example, tin-fluorophosphate glass, tungsten-doped tin fluorophosphate glass, chalcogenide glass, tellurite glass, borate glass and phosphate glass. In another embodiment, the sealing material is a Sn2+-containing inorganic oxide material such as, for example, SnO, SnO+P2O5 and SnO+BPO4.

Abstract translation: 这里描述了用于减少密封装置所需的时间和所得的密封装置（例如，气密密封的OLED装置）的密封方法。 密封方法包括以下步骤：（1）冷却未封装的装置; （2）在冷却装置的至少一部分上沉积密封材料以形成封装装置; 和（3）对封装的装置进行热处理以形成密封装置。 在一个实施方案中，密封材料是低液相线温度无机（LLT）材料，例如锡 - 氟磷酸盐玻璃，掺杂钨的锡氟磷酸盐玻璃，硫族化物玻璃，碲酸盐玻璃，硼酸盐玻璃和磷酸盐玻璃。 在另一个实施例中，密封材料是含Sn2 +的无机氧化物材料，例如SnO，SnO + P2O5和SnO + BPO4。