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91. 发明申请

US20060257669A1 Method of producing transparent titanium oxide coatings having a rutile structure 审中-公开
标题翻译：制备具有金红石结构的透明氧化钛涂层的方法
公开(公告)号：US20060257669A1
公开(公告)日：2006-11-16
申请号：US10543285
申请日：2004-01-21
申请人： Arnd Ritz , Michael Vergöhl , Berno Husche
发明人： Arnd Ritz , Michael Vergöhl , Berno Husche
IPC分类号： B32B17/06 , B32B9/00 , B32B19/00 , C23C16/00 , C23C14/00
CPC分类号： C23C14/083 , C03C17/2456 , C03C17/3417 , C03C2217/212 , C03C2218/15 , C03C2218/155
摘要： The invention relates to a method of producing titanium oxide coatings and also to articles, in particular lamps, lights or optical elements having said coating. In order to develop a method of the generic type such that the coating with rutile is considerably simplified, and to be able to carry it out at lower process temperatures, and also to find suitable surfaces for coating in this way, the invention proposes that the coating be deposited, with the rutile structure being obtained, on the surface of the substrate that is to be coated, at an oxygen partial pressure p which can be defined, by sputtering, at a deposition temperature of 100 to 300° C. from a titanium target.
摘要翻译：本发明涉及一种生产氧化钛涂层的方法，还涉及具有所述涂层的制品，特别是灯，灯或光学元件。为了开发通用类型的方法，使得具有金红石的涂层被大大简化，并且能够在较低的工艺温度下进行涂布，并且也以这种方式找到合适的涂层表面，本发明提出，在待涂覆的基材的表面上以可以通过溅射在100至300℃的沉积温度下从氧分压p沉积涂层，其中所述氧分压p 钛靶。

92. 发明授权

US07037555B2 Method of manufacturing a glazing panel 失效
标题翻译：制造玻璃板的方法
公开(公告)号：US07037555B2
公开(公告)日：2006-05-02
申请号：US09828809
申请日：2001-04-10
申请人： Robert Terneu , Philippe Legrand , Michel Hannotiau , Alain Schutz
发明人： Robert Terneu , Philippe Legrand , Michel Hannotiau , Alain Schutz
IPC分类号： B05D5/06 , C23C16/40 , C03C17/245 , C03C17/34
CPC分类号： C03C17/2453 , C03C17/253 , C03C17/3417 , C03C17/3423 , C03C2217/211 , C03C2217/23 , C03C2217/244 , C03C2218/112 , C03C2218/15 , C03C2218/152 , Y10T428/265
摘要： A method of manufacturing a glazing panel having a solar factor (FS) of less than 70% and being composed of a vitreous substrate and a tin/antimony oxide coating layer provided on the vitreous substrate and having a Sb/Sn molar ratio ranging from 0.01 to 0.5, preferable 0.03 to 0.5, the method including the steps of providing reactants in gaseous phase which comprise tin and antimony compounds, which are present in an amount effective to form the tin/antimony oxide coating layer; and forming the tin/antimony oxide coating layer pyrolytically on the vitreous substrate from the reactants in gaseous phase to provide the glazing panel having a solar factor (FS) of less than 70%.
摘要翻译：一种制造太阳能系数（FS）小于70％的玻璃板的方法，由玻璃质基板和设置在玻璃基板上的锡/锑氧化物涂层组成，Sb / Sn摩尔比范围为0.01 至0.5，优选为0.03至0.5，该方法包括以有效形成锡/氧化锑涂层的量存在的含有锡和锑化合物的气相反应物的步骤。并且在气相中从反应物在玻璃质基材上热解形成锡/氧化锑涂层，以提供具有小于70％的太阳能因子（FS）的玻璃板。

93. 发明申请

US20060079388A1 Ultra low residual reflection, low stress lens coating 失效
标题翻译：超低残留反射，低应力透镜涂层
公开(公告)号：US20060079388A1
公开(公告)日：2006-04-13
申请号：US11253514
申请日：2005-10-19
申请人： Glen Koenig , Nicholas Niejelow
发明人： Glen Koenig , Nicholas Niejelow
IPC分类号： B32B19/00 , C03C8/20 , B05D5/06
CPC分类号： G02B1/115 , C03C17/245 , C03C17/30 , C03C17/3417 , C03C2217/214 , C03C2217/228 , C03C2217/23 , C03C2218/15 , C03C2218/154 , C08K3/22 , C08K3/36 , C09D7/42 , C09D7/61 , C23C14/547 , G02B1/10 , G02B1/11
摘要： A method is provided for coating optical lenses and other optical articles with anti-reflection (AR) coatings. The lenses have low reflectivity, provide a substantially white light reflection and have a low stress AR coating and are ideally suited for optical lenses made using a molding procedure which provides a low stress lens substrate. In one aspect the method uses special coating compositions with one being a high index of refraction composition and the other being a low index of refraction composition. In another aspect a method is also disclosed using an optical monitor in conjunction with a conventional vapor deposition apparatus whereby an optical reference lens is used and a particular light frequency of reflected light is measured and this measurement is then used to determine when the desired optical coating is achieved. In a still further aspect the method also preferably calculates the optical thickness of each layer using a specific ratio of blue to green to red colors in the reflected light. The stress of the AR coating is also controlled by adjusting the optical thickness for each layer, if necessary, to minimize the difference in the tensile stresses and compressive stresses between low index/high index layers.
摘要翻译：提供了一种用于涂覆具有抗反射（AR）涂层的光学透镜和其它光学制品的方法。透镜具有低反射率，提供基本上白光反射并具有低应力AR涂层，并且理想地适用于使用提供低应力透镜基底的成型方法制造的光学透镜。在一个方面，该方法使用特殊的涂料组合物，其中一种是高折射率折射组合物，另一种是低折射率组合物。在另一方面，还公开了一种结合常规气相沉积设备的光学监视器的方法，由此使用光学参考透镜并测量特定的反射光的光频率，然后使用该测量来确定何时所需的光学涂层已完成。在另一方面，该方法还优选使用反射光中的蓝色至绿色的特定比例来计算每层的光学厚度。如果需要，AR涂层的应力也可以通过调节各层的光学厚度来控制，以最小化低折射率/高折射率层之间的拉伸应力和压缩应力的差异。

94. 发明授权

US06972136B2 Ultra low residual reflection, low stress lens coating and vacuum deposition method for making the same 失效
标题翻译：超低残留反射，低应力透镜涂层和真空沉积方法制作相同
公开(公告)号：US06972136B2
公开(公告)日：2005-12-06
申请号：US10444582
申请日：2003-05-23
申请人： Glen A. Koenig , Nicholas G. Niejelow
发明人： Glen A. Koenig , Nicholas G. Niejelow
IPC分类号： C03C17/245 , C03C17/30 , C03C17/34 , C09D7/00 , C09D7/12 , C23C14/54 , G02B1/10 , B05D5/06 , G02B1/11
CPC分类号： G02B1/115 , C03C17/245 , C03C17/30 , C03C17/3417 , C03C2217/214 , C03C2217/228 , C03C2217/23 , C03C2218/15 , C03C2218/154 , C08K3/22 , C08K3/36 , C09D7/42 , C09D7/61 , C23C14/547 , G02B1/10 , G02B1/11
摘要： A method is provided for coating optical lenses and other optical articles with anti-reflection (AR) coatings. The lenses have low reflectivity, provide a substantially white light reflection and have a low stress AR coating and are ideally suited for optical lenses made using a molding procedure which provides a low stress lens substrate. In one aspect the method uses special coating compositions with one being a high index of refraction composition and the other being a low index of refraction composition. In another aspect a method is also disclosed using an optical monitor in conjunction with a conventional vapor deposition apparatus whereby an optical reference lens is used and a particular light frequency of reflected light is measured and this measurement is then used to determine when the desired optical coating is achieved. In a still further aspect the method also preferably calculates the optical thickness of each layer using a specific ratio of blue to green to red colors in the reflected light. The stress of the AR coating is also controlled by adjusting the optical thickness for each layer, if necessary, to minimize the difference in the tensile stresses and compressive stresses between low index/high index layers.
摘要翻译：提供了一种用于涂覆具有抗反射（AR）涂层的光学透镜和其它光学制品的方法。透镜具有低反射率，提供基本上白光反射并具有低应力AR涂层，并且理想地适用于使用提供低应力透镜基底的成型方法制造的光学透镜。在一个方面，该方法使用特殊的涂料组合物，其中一种是高折射率折射组合物，另一种是低折射率组合物。在另一方面，还公开了一种结合常规气相沉积设备的光学监视器的方法，由此使用光学参考透镜并测量特定的反射光的光频率，然后使用该测量来确定何时所需的光学涂层已完成。在另一方面，该方法还优选使用反射光中的蓝色至绿色的特定比例来计算每层的光学厚度。如果需要，AR涂层的应力也可以通过调节各层的光学厚度来控制，以最小化低折射率/高折射率层之间的拉伸应力和压缩应力的差异。

95. 发明申请

US20050227408A1 Method for forming housings for electronic components and electronic components that are hermetically encapsulated thereby 有权
标题翻译：用于形成由其气密地封装的电子部件和电子部件的壳体的方法
公开(公告)号：US20050227408A1
公开(公告)日：2005-10-13
申请号：US10511566
申请日：2003-04-15
申请人： Jurgen Leib , Dietrick Mund
发明人： Jurgen Leib , Dietrick Mund
IPC分类号： G02B3/00 , B81C1/00 , B81C3/00 , C03B19/00 , C03C4/12 , C03C14/00 , C03C15/00 , C03C17/02 , C03C17/34 , C03C27/02 , C23C14/10 , H01L21/027 , H01L21/306 , H01L21/3065 , H01L21/312 , H01L21/316 , H01L21/50 , H01L21/56 , H01L21/768 , H01L23/00 , H01L23/02 , H01L23/10 , H01L23/29 , H01L23/31 , H01L23/48 , H01L23/498 , H01L51/50 , H01L51/52 , H05B33/04 , H05B33/10 , H05B33/24 , H05B33/26 , H05B33/28 , H05K3/28 , H01L21/44 , H01L21/48
CPC分类号： C03B19/00 , B81C1/00269 , B81C2203/019 , B81C2203/031 , C03C4/12 , C03C14/006 , C03C15/00 , C03C17/02 , C03C17/34 , C03C2214/16 , C03C2217/21 , C03C2218/15 , C03C2218/32 , C03C2218/328 , C03C2218/33 , C03C2218/355 , C23C14/10 , H01L21/02129 , H01L21/02145 , H01L21/02161 , H01L21/02266 , H01L21/31616 , H01L21/31625 , H01L21/50 , H01L21/56 , H01L23/10 , H01L23/291 , H01L23/3114 , H01L23/481 , H01L23/49894 , H01L51/5203 , H01L51/5253 , H01L51/5262 , H01L2224/16 , H01L2924/01012 , H01L2924/01019 , H01L2924/01027 , H01L2924/01057 , H01L2924/01078 , H01L2924/10253 , H01L2924/12041 , H01L2924/12044 , H01L2924/3011 , H05K3/28 , H01L2924/00
摘要： To encapsulate electronic modules in a manner which is substantially resistant to water diffusion yet is carried out at moderate temperatures below 300° C., preferably below 150° C., the invention provides a process for forming a housing for electronic modules, in particular sensors, integrated circuits and optoelectronic components; comprising the steps of: providing a substrate (1), of which at least a first substrate side (1a) is to be encapsulated, providing a vapor-deposition glass source (20), arranging the first substrate side (1a) in such a manner with respect to the vapor-deposition glass source that the first substrate side (1a) can be vapor-coated; vapor-coating the first substrate side with a glass layer (4).
摘要翻译：为了以基本上耐水扩散的方式封装电子模块，并且在低于300℃，优选低于150℃的中等温度下进行，本发明提供了一种用于形成用于电子模块，特别是传感器，集成电路和光电子元件; 包括以下步骤：提供至少第一衬底侧（1a）被封装的衬底（1），提供蒸镀玻璃源（20），将第一衬底侧（1a）布置在这种相对于气相沉积玻璃源的方式可以使第一衬底侧（1a）被蒸镀; 用玻璃层（4）对第一衬底侧进行蒸镀。

96. 发明申请

US20050175846A1 Method for coating metal surfaces and substrate having a coated metal surface 有权
标题翻译：涂覆有金属表面的金属表面和基材的方法
公开(公告)号：US20050175846A1
公开(公告)日：2005-08-11
申请号：US10511315
申请日：2003-04-15
申请人： Dietrich Mund , Jurgen Leib
发明人： Dietrich Mund , Jurgen Leib
IPC分类号： G02B3/00 , B81C1/00 , B81C3/00 , C03B19/00 , C03C4/12 , C03C14/00 , C03C15/00 , C03C17/02 , C03C17/34 , C03C27/02 , C23C14/10 , H01L21/027 , H01L21/306 , H01L21/3065 , H01L21/312 , H01L21/316 , H01L21/50 , H01L21/56 , H01L21/768 , H01L23/00 , H01L23/02 , H01L23/10 , H01L23/29 , H01L23/31 , H01L23/48 , H01L23/498 , H01L51/50 , H01L51/52 , H05B33/04 , H05B33/10 , H05B33/24 , H05B33/26 , H05B33/28 , H05K3/28 , C23C8/00 , B32B15/00
CPC分类号： H01L23/481 , B81C1/00269 , B81C2203/019 , B81C2203/031 , C03B19/00 , C03C4/12 , C03C14/006 , C03C15/00 , C03C17/02 , C03C17/34 , C03C2214/16 , C03C2217/21 , C03C2217/77 , C03C2218/15 , C03C2218/32 , C03C2218/328 , C03C2218/33 , C03C2218/355 , C23C14/10 , H01L21/02129 , H01L21/02145 , H01L21/02161 , H01L21/02266 , H01L21/31616 , H01L21/31625 , H01L21/50 , H01L21/56 , H01L23/10 , H01L23/291 , H01L23/3114 , H01L23/49894 , H01L51/5203 , H01L51/5253 , H01L51/5262 , H01L2224/16 , H01L2924/01012 , H01L2924/01019 , H01L2924/01027 , H01L2924/01068 , H01L2924/01078 , H01L2924/10253 , H01L2924/12041 , H01L2924/12044 , H01L2924/19041 , H01L2924/3011 , H01L2924/3025 , H05K3/28 , H01L2924/00
摘要： The invention is therefore based on the object of providing a substrate having a metallic surface and a vitreous coating. Accordingly, the invention provides a process for producing a coated substrate or a product having a coated substrate which has at least one metallic surface coated with a glass, the substrate being coated with an evaporation-coating glass at least on the metallic surface.
摘要翻译：因此，本发明的目的是提供一种具有金属表面和玻璃质涂层的基底。因此，本发明提供一种制备涂覆的基材或具有涂覆基材的产品的方法，所述涂覆基材具有涂覆有玻璃的至少一个金属表面，所述基材至少在金属表面上涂覆有蒸发涂层玻璃。

97. 发明申请

US20040234780A1 Ultra low residual reflection, low stress lens coating 失效
标题翻译：超低残留反射，低应力透镜涂层
公开(公告)号：US20040234780A1
公开(公告)日：2004-11-25
申请号：US10444582
申请日：2003-05-23
发明人： Glen A. Koenig , Nicholas G. Niejelow
IPC分类号： B05D005/06 , C09D001/00 , B32B009/00
CPC分类号： G02B1/115 , C03C17/245 , C03C17/30 , C03C17/3417 , C03C2217/214 , C03C2217/228 , C03C2217/23 , C03C2218/15 , C03C2218/154 , C08K3/22 , C08K3/36 , C09D7/42 , C09D7/61 , C23C14/547 , G02B1/10 , G02B1/11
摘要： A method is provided for coating optical lenses and other optical articles with anti-reflection (AR) coatings. The lenses have low reflectivity, provide a substantially white light reflection and have a low stress AR coating and are ideally suited for optical lenses made using a molding procedure which provides a low stress lens substrate. In one aspect the method uses special coating compositions with one being a high index of refraction composition and the other being a low index of refraction composition. In another aspect a method is also disclosed using an optical monitor in conjunction with a conventional vapor deposition apparatus whereby an optical reference lens is used and a particular light frequency of reflected light is measured and this measurement is then used to determine when the desired optical coating is achieved. In a still further aspect the method also preferably calculates the optical thickness of each layer using a specific ratio of blue to green to red colors in the reflected light. The stress of the AR coating is also controlled by adjusting the optical thickness for each layer, if necessary, to minimize the difference in the tensile stresses and compressive stresses between low index/high index layers.
摘要翻译：提供了一种用于涂覆具有抗反射（AR）涂层的光学透镜和其它光学制品的方法。透镜具有低反射率，提供基本上白光反射并具有低应力AR涂层，并且理想地适用于使用提供低应力透镜基底的成型方法制造的光学透镜。在一个方面，该方法使用特殊的涂料组合物，其中一种是高折射率折射组合物，另一种是低折射率组合物。在另一方面，还公开了一种结合常规气相沉积设备的光学监视器的方法，由此使用光学参考透镜并测量特定的反射光的光频率，然后使用该测量来确定何时所需的光学涂层已完成。在另一方面，该方法还优选使用反射光中的蓝色至绿色的特定比例来计算每层的光学厚度。如果需要，AR涂层的应力也可以通过调节各层的光学厚度来控制，以最小化低折射率/高折射率层之间的拉伸应力和压缩应力的差异。

98. 发明授权

US06777091B2 Substrate with photocatalytic film and method for producing the same 失效
标题翻译：具有光催化薄膜的基板及其制造方法
公开(公告)号：US06777091B2
公开(公告)日：2004-08-17
申请号：US10220714
申请日：2002-09-03
申请人： Yoshifumi Kijima , Toshiaki Anzaki
发明人： Yoshifumi Kijima , Toshiaki Anzaki
IPC分类号： B32B1706
CPC分类号： C23C14/5806 , C03C17/008 , C03C17/2456 , C03C17/3417 , C03C2217/212 , C03C2217/214 , C03C2217/217 , C03C2217/218 , C03C2217/258 , C03C2217/71 , C03C2218/15 , C03C2218/154 , C23C14/024 , C23C14/083 , C23C14/58 , C23C14/5853 , Y10T428/131
摘要： The sheet resistance of titanium oxide film can be controlled in 109 to 1013 &OHgr;/□ by coating a titanium oxide film on a substrate by sputtering a target containing metallic titanium under an atmosphere at reduced pressure and then subjecting the film to heat treatment under and oxidizing, inert or reducing atmosphere, depending on the oxygen-deficient state of the film. It is possible that a small amount of niobium oxide is contained in the titanium oxide, or a niobium oxide film is provided as an underlying film.
摘要翻译：通过在减压气氛下溅射含金属钛的靶，在基板上涂覆氧化钛膜，可以将氧化钛膜的薄层电阻控制在10 9〜10 13Ω/□，根据膜的缺氧状态，在氧化，惰性或还原气氛下进行热处理。氧化钛中含有少量的氧化铌，或者可以提供铌氧化物膜作为下面的膜。

99. 发明申请

US20030152781A1 Solar control coated glass 有权
标题翻译：太阳能控制涂层玻璃
公开(公告)号：US20030152781A1
公开(公告)日：2003-08-14
申请号：US10366427
申请日：2003-02-13
申请人： ATOFINA Chemicals, Inc.
发明人： David A. Russo , Clem S. McKown , Christophe Roger , Jeffrey L. Stricker
IPC分类号： B32B017/06
CPC分类号： C03C17/366 , C03C17/2453 , C03C17/3417 , C03C2217/211 , C03C2217/24 , C03C2217/241 , C03C2217/244 , C03C2217/91 , C03C2218/15 , C03C2218/152 , C03C2218/1525 , Y10T428/265 , Y10T428/3163
摘要： A solar-control glass that has acceptable visible light transmission, absorbs near infrared wavelength light (NIR) and reflects midrange infrared light (low emissivity mid IR) along with a preselected color within the visible light spectrum for reflected light is provided. Also provided is a method of producing the improved, coated, solar-controlled glass. The improved glass has a solar energy (IR) absorbing layer comprising tin oxide having a dopant such as antimony and a low emissivity control layer (low emissivity) capable of reflecting midrange infrared light and comprising tin oxide having fluorine and/or phosphorus dopant. A separate iridescence color suppressing layer as described in the prior-art is generally not needed to achieve a neutral (colorless) appearance for the coated glass, however an iridescence suppressing layer or other layers may be combined with the two layer assemblage provided by the present invention. If desired, multiple solar control and/or multiple low emissivity layers can be utilized. The NIR layer and the low emissivity layer can be separate portions of a single tin oxide film since both layers are composed of doped tin oxide. A method of producing the coated solar control glass is also provided.
摘要翻译：提供具有可接受的可见光透射，吸收近红外波长光（NIR）并且反射中频红外光（低辐射率IR）的太阳能控制玻璃以及用于反射光的可见光光谱内的预选颜色。还提供了一种生产改进的涂覆的太阳能控制玻璃的方法。改进的玻璃具有包含具有诸如锑的掺杂剂的氧化锡和能够反射中频红外光并且包含具有氟和/或磷掺杂剂的氧化锡的低发射率控制层（低发射率）的太阳能（IR）吸收层。通常不需要如现有技术中所述的单独的虹彩色抑制层来实现涂覆玻璃的中性（无色）外观，然而虹彩抑制层或其它层可以与本发明提供的两层组合物组合发明。如果需要，可以利用多个太阳能控制和/或多个低发射率层。 NIR层和低辐射层可以是单个氧化锡膜的分离部分，因为两层都由掺杂的氧化锡组成。还提供了一种生产涂覆的太阳能控制玻璃的方法。

100. 发明申请

US20020008018A1 Process for forming optical composite film and optical articles producing from the same 审中-公开
标题翻译：用于形成由其制造的光学复合膜和光学物品的方法
公开(公告)号：US20020008018A1
公开(公告)日：2002-01-24
申请号：US09780410
申请日：2001-02-12
发明人： Yoichi Murayama , Kunihiro Kashiwagi
IPC分类号： C23C016/08 , B05D005/06 , B32B007/02
CPC分类号： C03C17/2453 , C03C17/245 , C03C17/34 , C03C17/3417 , C03C2217/211 , C03C2217/213 , C03C2217/241 , C03C2217/40 , C03C2217/91 , C03C2218/15 , C03C2218/155 , C23C14/06 , C23C14/10 , Y10T428/24942
摘要： The invention provides a process for forming an optical composite film that has a desired refractive index and is easy in design of the film. The material of an inorganic optical film is deposited on a base through reactive ion plating in an atmosphere where organic substance gases containing a fluorinated hydrocarbon are introduced, thus to form an organic composite film having a refractive index different from the intrinsic refractive index of the material of an inorganic optical film.
摘要翻译：本发明提供了一种形成具有所需折射率并容易设计薄膜的光学复合膜的方法。无机光学膜的材料通过反应性离子电镀在含有含氟烃的有机物气体的气氛中沉积在基底上，从而形成折射率不同于材料的固有折射率的有机复合膜的无机光学膜。

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