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公开(公告)号:US20090134953A1
公开(公告)日:2009-05-28
申请号:US12300464
申请日:2007-05-17
申请人: Andrew Tye Hunt , Zhiyong Zhao , Yongdong Jiang , Xiaoyan Wang , Kwang Choi
发明人: Andrew Tye Hunt , Zhiyong Zhao , Yongdong Jiang , Xiaoyan Wang , Kwang Choi
IPC分类号: H03H7/01
摘要: Tunable radio frequency (RF) devices, such as phase shifters and filters, are formed by depositing thin film layers on a substrate and patterning the thin film layers by various lithography techniques. A thin film metal layer is patterned to form a plurality of capacitors and inductors, leaving at least two grounding regions that lie closely adjacent the capacitors and inductors. As patterned portions of the grounding regions are electrically isolated from each other. Performance of the devices are improved by electrically bridging the differential potential grounding regions.
摘要翻译: 通过在衬底上沉积薄膜层并通过各种光刻技术对薄膜层进行图案化来形成可调谐射频(RF)器件,例如移相器和滤波器。 图案化薄膜金属层以形成多个电容器和电感器,留下紧邻电容器和电感器的至少两个接地区域。 由于接地区域的图案部分彼此电隔离。 通过电气桥接差分电位接地区来改善器件的性能。
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公开(公告)号:US08988169B2
公开(公告)日:2015-03-24
申请号:US12300464
申请日:2007-05-17
申请人: Andrew Tye Hunt , Zhiyong Zhao , Yongdong Jiang , Xiaoyan Wang , Kwang Choi
发明人: Andrew Tye Hunt , Zhiyong Zhao , Yongdong Jiang , Xiaoyan Wang , Kwang Choi
摘要: Tunable radio frequency (RF) devices, such as phase shifters and filters, are formed by depositing thin film layers on a substrate and patterning the thin film layers by various lithography techniques. A thin film metal layer is patterned to form a plurality of capacitors and inductors, leaving at least two grounding regions that lie closely adjacent the capacitors and inductors. As patterned portions of the grounding regions are electrically isolated from each other. Performance of the devices are improved by electrically bridging the differential potential grounding regions.
摘要翻译: 通过在衬底上沉积薄膜层并通过各种光刻技术对薄膜层进行图案化来形成可调谐射频(RF)器件,例如移相器和滤波器。 图案化薄膜金属层以形成多个电容器和电感器,留下紧邻电容器和电感器的至少两个接地区域。 由于接地区域的图案部分彼此电隔离。 通过电气桥接差分电位接地区来改善器件的性能。
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公开(公告)号:US06986955B2
公开(公告)日:2006-01-17
申请号:US10019082
申请日:2001-08-02
申请人: Jerome Schmitt , George Guang-Ji Cui , Henry A. Luten, III , Fang Yang , Fe Alma Gladden , Scott Flanagan , Yongdong Jiang , Andrew Tye Hunt
发明人: Jerome Schmitt , George Guang-Ji Cui , Henry A. Luten, III , Fang Yang , Fe Alma Gladden , Scott Flanagan , Yongdong Jiang , Andrew Tye Hunt
IPC分类号: B32B9/04 , B32B3/00 , C30B29/32 , C01G23/047
CPC分类号: C23C16/404 , C23C16/405 , C23C16/406 , C30B25/02 , C30B29/32 , Y10T428/24917
摘要: Epitaxial and reduced grain boundary materials are deposited on substrates for use in electronic and optical applications. A specific material disclosed is epitaxial barium strontium titanate (14) deposited on the C-plane of sapphire (12).
摘要翻译: 外延和还原的晶界材料沉积在用于电子和光学应用的基板上。 公开的具体材料是沉积在蓝宝石(12)的C平面上的外延钛酸钡锶(14)。
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公开(公告)号:US07282238B2
公开(公告)日:2007-10-16
申请号:US10111684
申请日:2001-06-27
申请人: Subramaniam Shanmugham , Andrew Tye Hunt , Girish Deshpande , Tzyy-Jiuan Jan Hwang , Erika Moore , Yongdong Jiang
发明人: Subramaniam Shanmugham , Andrew Tye Hunt , Girish Deshpande , Tzyy-Jiuan Jan Hwang , Erika Moore , Yongdong Jiang
IPC分类号: B05D3/08
CPC分类号: C03C17/001 , B05D1/08 , B05D1/34 , B05D3/0254 , B05D3/08 , B05D2518/10 , C03C17/007 , C03C17/009 , C03C17/32 , C03C17/42 , C03C2217/425 , C03C2217/445 , C03C2217/475 , C08K3/22 , C08K3/346 , C09D7/61 , C09D183/04 , C23C4/12 , C23C4/123 , C23C26/00 , Y10T428/12583 , Y10T428/31522
摘要: A coherent material is formed on a substrate (10) by providing a precursor suspension (14) in which particulates are suspended in a carrier fluid, and directing the precursor suspension (14) at the substrate (10) from a first source (12). Generally contemporaneously with application of the deposited precursor suspension (14) to the surface, hot gases, e.g. hot gases produced by a flame (16), are directed at the substrate (10) from a remote second source (18) to fuse the particulates into the coherent material.
摘要翻译: 通过提供一种前体悬浮液(14),其中颗粒悬浮在载体流体中,并且将前体悬浮液(14)从第一源(12)引导到基底(10)处,在基底(10)上形成相干材料, 。 通常同时将沉积的前体悬浮液(14)施加到表面,热气体,例如, 由火焰(16)产生的热气体从远程第二源(18)引导到衬底(10),以将微粒熔合成粘结材料。
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公开(公告)号:US20130034689A1
公开(公告)日:2013-02-07
申请号:US13204523
申请日:2011-08-05
申请人: Andrew Tye Hunt , Yongdong Jiang
发明人: Andrew Tye Hunt , Yongdong Jiang
CPC分类号: B32B27/08 , B32B27/281 , B32B27/302 , B32B27/32 , B32B27/36 , B32B2250/24 , B32B2255/10 , B32B2255/20 , B32B2307/716 , B32B2307/7242 , B32B2439/00 , C23C14/02 , C23C14/024 , C23C14/20 , C23C14/562 , C23C16/0209 , C23C16/402 , C23C16/453 , C23C16/545 , C23C16/56 , C23C28/322 , C23C28/345 , Y10T428/24355 , Y10T428/2495 , Y10T428/265 , Y10T428/31721 , Y10T428/31786 , Y10T428/31855
摘要: An inorganic nanolayer surface coated polymer film product is disclosed with enhancements such as improved metallization capability, low cost, low polymer additives and modifiers, improved recyclability, and good web properties. Also method for priming a flexible film substrate to enhance the reactivity or wettability of the substrate for metallization is disclosed. A substrate film is coated with one or more nanolayers of a metal or metal oxide applied by CCVD and/or PECVD at open atmosphere. The deposited coating acts to enhance the surface energy of the film substrate and to and reduce the surface gauge variation of the substrate or supporting film, thereby enhancing the wettability of the film substrate for metallization and/or to improve the anti-block characteristics of the film. The deposited coatings may also act as a barrier layer for lowering the permeability of light, gas and vapor transmission through the substrate.
摘要翻译: 公开了无机纳米层表面涂覆的聚合物膜产品,其具有改进的金属化能力,低成本,低聚合物添加剂和改性剂,改善的可循环性和良好的网性能。 公开了一种用于引发柔性膜基底以提高用于金属化的基底的反应性或润湿性的方法。 在敞开的气氛下,用一个或多个通过CCVD和/或PECVD施加的金属或金属氧化物的纳米层涂覆基底膜。 沉积的涂层用于增强膜基材的表面能,并降低基材或支撑膜的表面规格变化,从而提高用于金属化的膜基材的润湿性和/或改善薄膜基材的抗块特性 电影。 沉积的涂层还可以用作阻挡层,用于降低通过基底的光,气体和蒸气透过率的渗透性。
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公开(公告)号:US20100246009A1
公开(公告)日:2010-09-30
申请号:US12438374
申请日:2007-08-21
CPC分类号: C23C16/30 , C08K3/08 , C09D7/61 , C09D7/67 , C09D7/70 , C23C16/006 , Y10T428/25 , Y10T428/265
摘要: Optical coating materials comprise a transparent matrix material having dispersed nanoparticles comprising between 1 and 20 volume percent of the optical coating material. The coating materials are used to form optical coatings on substrates, such as glass/ceramic, polymer or metal, to alter the color or other optical properties. The nanoparticles are semiconductive material or elemental metals or elemental metal alloys that exhibit surface plasmon resonance.
摘要翻译: 光学涂层材料包括具有分散的纳米颗粒的透明基质材料,其包含1至20体积%的光学涂层材料。 涂层材料用于在基底上形成光学涂层,例如玻璃/陶瓷,聚合物或金属,以改变颜色或其它光学性质。 纳米颗粒是表现出等离子体共振的半导体材料或元素金属或元素金属合金。
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7.发明申请Hypertransparent Nanostructured Superhydrophobic and Surface Modification Coatings 审中-公开超透明纳米结构超疏水和表面改性涂料公开(公告)号:US20100203287A1
公开(公告)日:2010-08-12
申请号:US12474242
申请日:2009-05-28
CPC分类号: C23C16/401 , B05B7/06 , B05C11/1005 , Y10T428/24355
摘要: Hydrophobic and self-cleaning surfaces have wide applications, including glasses, camera covers, windows, solar panels and high-end finished surfaces. Many existing hydrophobic coatings either have low transmittance, making them unsuitable for high light transmission applications, or are insufficiently hydrophobic. The present invention concerns high-quality hypertransparent superhydrophobic coatings, for example SiO2-based, with double-roughness microstructure that were deposited on to, for example, glass substrates using, for example, the combustion chemical vapor deposition (CCVD) technique. Embodiments of the invention include coatings with a contact angle of higher than 165°, a rolling angle of
摘要翻译: 疏水和自清洁表面有广泛的应用,包括眼镜,相机盖,窗户,太阳能电池板和高端成品表面。 许多现有的疏水涂层具有低透射率,使得它们不适用于高光透射应用,或不够疏水。 本发明涉及使用例如燃烧化学气相沉积(CCVD)技术沉积到例如玻璃基板上的高质量超透明超疏水涂层,例如SiO 2基,具有双重粗糙度微结构。 本发明的实施例包括接触角高于165°,滚动角度<5°,雾度<0.5%,透射率提高2%,反射率比裸露玻璃低2%的涂层。 双重粗糙度可以提高耐磨性。 此外,可以施加其它表面化学物质以产生亲水性,锇酸性或锇酸性表面。
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8.发明授权Process for forming high surface area embedded coating with high abrasion resistance 有权具有高耐磨性的高表面积嵌入涂层成型工艺公开(公告)号:US08834964B2
公开(公告)日:2014-09-16
申请号:US12765703
申请日:2010-04-22
申请人: Masayoshi Kitada , Todd Fitz , Andrew Tye Hunt , Yongdong Jiang , Jeanne Yadlyne Smalley , Marvis White
发明人: Masayoshi Kitada , Todd Fitz , Andrew Tye Hunt , Yongdong Jiang , Jeanne Yadlyne Smalley , Marvis White
CPC分类号: B32B33/00 , B32B2307/554 , B32B2307/728 , B32B2307/73 , C23C4/129 , C23C24/04 , Y10T428/24372
摘要: The process of the present invention significantly increases the durability of superhydrophobic surfaces, while retaining similar optical properties to those of the original surface. The process uses velocity and heat to take freshly formed nano- and ultrafine particles and can partially embed and chemically bond them to the substrate, creating a strongly bonded nano-to-submicron textured surface. This nanotextured surface can then be modified to have desirable surface properties; for example, it can be hydrophobic, oliophobic, or hydrophilic. The high points of the coating made with this process protect the remainder of the surface from abrasion, thus greatly increasing product life in many uses. In preferred embodiments, the process is used to coat transportation vehicle windshields.
摘要翻译: 本发明的方法显着提高超疏水表面的耐久性,同时保持与原始表面相似的光学性质。 该方法使用速度和热量来取代新形成的纳米和超细颗粒,并且可以部分地嵌入和化学地将它们结合到基底上,产生强粘合的纳米到亚微米的纹理表面。 然后可以将该纳米纹理表面改性成具有期望的表面性质; 例如,它可以是疏水性的,唾液酸的或亲水的。 用这种方法制成的涂层的高点保护了表面的其余部分免受磨损,从而大大提高了许多用途中的产品寿命。 在优选实施例中,该方法用于涂覆运输车辆挡风玻璃。
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9.发明申请Process for Forming High Surface Area Embedded Coating with High Abrasion Resistance 有权具有高耐磨性的高表面积嵌入涂层的形成工艺公开(公告)号:US20110143094A1
公开(公告)日:2011-06-16
申请号:US12765703
申请日:2010-04-22
申请人: Masayoshi Kitada , Todd Fitz , Andrew Tye Hunt , Yongdong Jiang , Jeanne Yadlyne Smalley , Marvis White
发明人: Masayoshi Kitada , Todd Fitz , Andrew Tye Hunt , Yongdong Jiang , Jeanne Yadlyne Smalley , Marvis White
CPC分类号: B32B33/00 , B32B2307/554 , B32B2307/728 , B32B2307/73 , C23C4/129 , C23C24/04 , Y10T428/24372
摘要: The process of the present invention significantly increases the durability of superhydrophobic surfaces, while retaining similar optical properties to those of the original surface. The process uses velocity and heat to take freshly formed nano- and ultrafine particles and can partially embed and chemically bond them to the substrate, creating a strongly bonded nano-to-submicron textured surface. This nanotextured surface can then be modified to have desirable surface properties; for example, it can be hydrophobic, oliophobic, or hydrophilic. The high points of the coating made with this process protect the remainder of the surface from abrasion, thus greatly increasing product life in many uses. In preferred embodiments, the process is used to coat transportation vehicle windshields.
摘要翻译: 本发明的方法显着提高超疏水表面的耐久性,同时保持与原始表面相似的光学性质。 该方法使用速度和热量来取代新形成的纳米和超细颗粒,并且可以部分地嵌入和化学地将它们结合到基底上,产生强粘合的纳米到亚微米的织构表面。 然后可以将该纳米纹理表面改性成具有期望的表面性质; 例如,它可以是疏水性的,唾液酸的或亲水的。 用这种方法制成的涂层的高点保护了表面的其余部分免受磨损,从而大大提高了许多用途中的产品寿命。 在优选实施例中,该方法用于涂覆运输车辆挡风玻璃。
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公开(公告)号:US07315662B2
公开(公告)日:2008-01-01
申请号:US11444542
申请日:2006-06-02
IPC分类号: G02F1/035
CPC分类号: G02F1/0316 , G02F1/0508 , H01G7/06 , H01L21/86 , H01L27/016 , H01L27/13 , H01L29/93
摘要: Electronic and optical (or photonic) devices with variable or switchable properties and methods used to form these devices, are disclosed. More specifically, the present invention involves forming layers of conductive material and dielectric material or materials with varying conductivity and indexes of refraction to form various electronic and optical devices. One such layer of adjustable material is formed by depositing epitaxial or reduced grain boundary barium strontium titanate on the C-plane of sapphire.
摘要翻译: 公开了具有可变或可切换特性的电子和光学(或光子)器件和用于形成这些器件的方法。 更具体地,本发明涉及形成具有导电性和折射率的导电材料和介电材料或材料的层,以形成各种电子和光学器件。 通过在蓝宝石的C平面上沉积外延或还原的晶界钡钛酸锶而形成一个这样的可调节材料层。
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