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公开(公告)号:US20060086444A1
公开(公告)日:2006-04-27
申请号:US10971854
申请日:2004-10-22
Applicant: Chris Yu
Inventor: Chris Yu
IPC: B65D85/00
CPC classification number: A45C13/002 , A45C5/14 , A45C7/0068
Abstract: A luggage cover for covering a luggage container, comprising a plurality of panels comprising a front panel, a rear panel, a top panel, a bottom panel, a first side panel, and a second side panel, the panels capable of being shaped into a protective shell for covering the luggage container, and a first fastening apparatus for detachably fastening the plurality of panels together to maintain the shape of the protective shell, wherein one of the plurality of panels is an expandable panel.
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公开(公告)号:US08828246B2
公开(公告)日:2014-09-09
申请号:US12707731
申请日:2010-02-18
Applicant: Chris Yu
Inventor: Chris Yu
IPC: H01B13/00
CPC classification number: A61M37/0015 , A61M2037/0023 , A61M2037/0053 , B01L3/502707 , B81B7/008 , B81B2201/058 , B81B2201/06 , B81C1/00119 , B81C1/00246 , B81C1/00341 , B82Y5/00 , Y10T29/49124
Abstract: A new and novel method utilizing current nano-technological processes for fabricating a range of micro-devices with significantly expanded capabilities, unique functionalities at microscopic levels, enhanced degree of flexibilities, reduced costs and improved performance in the fields of bioscience and medicine is disclosed in the within patent application. Micro-devices fabricated using the disclosed nano-technological techniques have significant improvements in many areas over the existing, conventional methods. Such improvements include, but are not limited to reduced overall costs, early disease detection, targeted drug delivery, targeted disease treatment and reduced degree of invasiveness in treatment. Compared with existing, conventional approaches, the said inventive approach disclosed in this patent application is much more microscopic, sensitive, accurate, precise, flexible and effective. This novel approach is able to deliver a superior level of performance in medical treatments over the existing modalities.While microelectronic processes have been used for fabricating integrated circuit (“IC”) devices such as microprocessors, digital signal processors (“DSP”) and memory chips for the past two to three decades, their use has not been extended to most areas of bioscience and medicine. While there have been some application of micro-chips used in the area of laboratory diagnostic tests such as gene/DNA mapping and potential tests for diseases, their meaningful application in the areas of in-vivo diagnosis, drug delivery and disease treatments have not been utilized and are basically non-existent in the current state of the art. The disclosure herein utilizes these techniques to manufacture micro-devices for use in biological and medical applications as a microscopic way of treating disease.
Abstract translation: 一种新的和新颖的方法利用当前的纳米技术工艺来制造具有显着扩展能力的微量器件的范围,显微镜级别的独特功能,增强的柔性程度,降低的成本以及在生物科学和医学领域中改进的性能。 在专利申请内。 使用公开的纳米技术技术制造的微器件在现有的常规方法中在许多领域具有显着的改进。 这些改进包括但不限于降低总体成本,早期疾病检测,靶向药物递送,靶向疾病治疗和治疗入侵程度降低。 与现有的常规方法相比,本专利申请中公开的所述发明方法更微观,灵敏,准确,精确,灵活和有效。 这种新颖的方法能够在医疗治疗中提供比现有模式更高水平的表现。 虽然微电子工艺已经用于制造过去二三十年的微处理器,数字信号处理器(“DSP”)和存储器芯片等集成电路(“IC”)器件,但它们的使用并没有扩展到生物科学的大多数领域 和药。 虽然在实验室诊断测试领域中使用了微芯片,例如基因/ DNA图谱和潜在的疾病测试,但是在体内诊断,药物传播和疾病治疗领域的有意义的应用尚未得到应用 在现有技术水平基本上不存在。 本文的公开内容利用这些技术来制造用于生物和医学应用的微型装置,作为治疗疾病的微观方式。
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13.发明授权公开(公告)号:US08413219B2
公开(公告)日:2013-04-02
申请号:US13154386
申请日:2011-06-06
Applicant: Brandon A. Downey , Amit J. Patel , Chris Yu
Inventor: Brandon A. Downey , Amit J. Patel , Chris Yu
IPC: G06F15/16
CPC classification number: H04L63/105 , G06F21/34 , G06F21/40 , G06F21/42 , G06F21/43 , H04L63/083
Abstract: A computer-implemented system and method for verifying access to a network account are provided. A first user communication portal is associated with a user network account. A request to access the user network account is received from a second user communication portal. Security criteria related to the second user communication portal is determined. Access to the user network account is enabled upon receipt of a communication associated with the first user communication portal when the security criteria is of a predetermined value.
Abstract translation: 提供了用于验证对网络帐户的访问的计算机实现的系统和方法。 第一用户通信门户与用户网络帐户相关联。 从第二用户通信门户接收到访问用户网络帐户的请求。 确定与第二用户通信门户相关的安全标准。 当安全标准是预定值时,在接收到与第一用户通信门户相关联的通信时,启用对用户网络帐户的访问。
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公开(公告)号:US20110200948A1
公开(公告)日:2011-08-18
申请号:US12707731
申请日:2010-02-18
Applicant: Chris Yu
Inventor: Chris Yu
CPC classification number: A61M37/0015 , A61M2037/0023 , A61M2037/0053 , B01L3/502707 , B81B7/008 , B81B2201/058 , B81B2201/06 , B81C1/00119 , B81C1/00246 , B81C1/00341 , B82Y5/00 , Y10T29/49124
Abstract: A new and novel method utilizing current nano-technological processes for fabricating a range of micro-devices with significantly expanded capabilities, unique functionalities at microscopic levels, enhanced degree of flexibilities, reduced costs and improved performance in the fields of bioscience and medicine is disclosed in the within patent application. Micro-devices fabricated using the disclosed nano-technological techniques have significant improvements in many areas over the existing, conventional methods. Such improvements include, but are not limited to reduced overall costs, early disease detection, targeted drug delivery, targeted disease treatment and reduced degree of invasiveness in treatment. Compared with existing, conventional approaches, the said inventive approach disclosed in this patent application is much more microscopic, sensitive, accurate, precise, flexible and effective. This novel approach is able to deliver a superior level of performance in medical treatments over the existing modalities.While microelectronic processes have been used for fabricating integrated circuit (“IC”) devices such as microprocessors, digital signal processors (“DSP”) and memory chips for the past two to three decades, their use has not been extended to most areas of bioscience and medicine. While there have been some application of micro-chips used in the area of laboratory diagnostic tests such as gene/DNA mapping and potential tests for diseases, their meaningful application in the areas of in-vivo diagnosis, drug delivery and disease treatments have not been utilized and are basically non-existent in the current state of the art. The disclosure herein utilizes these techniques to manufacture micro-devices for use in biological and medical applications as a microscopic way of treating disease.
Abstract translation: 一种新的和新颖的方法利用当前的纳米技术工艺来制造具有显着扩展能力的微量器件的范围,显微镜级别的独特功能,增强的柔性程度,降低的成本以及在生物科学和医学领域中改进的性能。 在专利申请内。 使用公开的纳米技术技术制造的微器件在现有的常规方法中在许多领域具有显着的改进。 这些改进包括但不限于降低总体成本,早期疾病检测,靶向药物递送,靶向疾病治疗和治疗入侵程度降低。 与现有的常规方法相比,本专利申请中公开的所述发明方法更微观,灵敏,准确,精确,灵活和有效。 这种新颖的方法能够在医疗治疗中提供比现有模式更高水平的表现。 虽然微电子工艺已经用于制造过去二三十年的微处理器,数字信号处理器(“DSP”)和存储器芯片等集成电路(“IC”)器件,但它们的使用并没有扩展到生物科学的大多数领域 和药。 虽然在实验室诊断测试领域中使用了微芯片,例如基因/ DNA图谱和潜在的疾病测试,但是在体内诊断,药物传播和疾病治疗领域的有意义的应用尚未得到应用 在现有技术水平基本上不存在。 本文的公开内容利用这些技术来制造用于生物和医学应用的微型装置,作为治疗疾病的微观方式。
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公开(公告)号:US20070026679A1
公开(公告)日:2007-02-01
申请号:US11190218
申请日:2005-07-26
IPC: H01L21/302 , H01L21/461
CPC classification number: G02F1/133553 , G02F1/136277 , G02F2201/48
Abstract: A method for chemical mechanical polishing of mirror structures. The method includes providing a semiconductor substrate, e.g., silicon wafer. The method includes forming a first dielectric layer overlying the semiconductor substrate and forming an aluminum layer overlying the first dielectric layer, the aluminum layer having an upper surface with a predetermined roughness of greater than 20 Angstroms RMS. The method also includes processing regions overlying the upper surface of the aluminum layer using a touch polishing process to reduce a surface roughness of the upper surface of aluminum layer to less than 5 Angstroms to form a mirror surface on the aluminum layer. Preferably, a protective layer is formed overlying the mirror surface on the aluminum layer. The method includes patterning the aluminum layer to expose portions of the dielectric layer to form a plurality of pixel regions defined by borders from the exposed portions and forming a second dielectric layer overlying the patterned aluminum layer and exposed portions of the first dielectric layer. The method includes removing a portion of the second dielectric layer to expose the protective layer, whereupon the protective layer acts as a polish stop layer. In a specific embodiment, the selectivity between the protective layer and the second dielectric layer is 1:30 or greater.
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Patent Agency Ranking
公开(公告)号:US20070026557A1
公开(公告)日:2007-02-01
申请号:US11387248
申请日:2006-03-22
Applicant: Chris Yu , Chunxiao Yang , Ziru Ren , Herb Huang
Inventor: Chris Yu , Chunxiao Yang , Ziru Ren , Herb Huang
IPC: H01L21/00
CPC classification number: G02F1/136277 , G02F1/133553 , G02F2001/136295 , G02F2201/50
Abstract: A method for chemical mechanical polishing of mirror structures. Such mirror structures may be used for displays (e.g., LCOS, DLP), optical devices, and the like. The method includes providing a semiconductor substrate, e.g., silicon wafer. The method forms a first dielectric layer overlying the semiconductor substrate and forms an aluminum layer overlying the dielectric layer. The aluminum layer has a predetermined roughness of greater than 20 Angstroms RMS. The method patterns the aluminum layer to expose portions of the dielectric layer. The method includes forming a second dielectric layer overlying the patterned aluminum layer and exposed portions of the dielectric layer. The method removes a portion of the second dielectric layer. The method processes regions overlying the patterned aluminum layer using a touch-up polishing process to reduce a surface roughness of the patterned aluminum to less than 5 Angstroms and eliminate the dielectric residue overlaying the patterned aluminum to form a mirror surface on the patterned aluminum.
Abstract translation: 镜面结构的化学机械抛光方法。 这种镜结构可以用于显示器(例如,LCOS,DLP),光学装置等。 该方法包括提供半导体衬底,例如硅晶片。 该方法形成覆盖在半导体衬底上的第一电介质层,并形成覆盖在电介质层上的铝层。 铝层具有大于20埃的预定粗糙度。 该方法形成铝层以暴露电介质层的部分。 该方法包括形成覆盖图案化的铝层和介电层的暴露部分的第二电介质层。 该方法移除第二电介质层的一部分。 该方法使用上光抛光工艺处理覆盖图案化铝层的区域,以将图案化的铝的表面粗糙度减小到小于5埃,并消除覆盖图案化的铝的电介质残余物以在图案化铝上形成镜面。
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公开(公告)号:US20110297498A1
公开(公告)日:2011-12-08
申请号:US12795603
申请日:2010-06-07
Applicant: Chris Yu
Inventor: Chris Yu
IPC: A45C3/00
CPC classification number: A45C5/14 , A45C5/06 , A45C7/0086 , A45C13/001 , A45C2003/002
Abstract: A luggage container with a detachable pocket includes a compartment having at least front, rear, top, bottom and side surfaces and at least one pocket receiving portion configured to receive the detachable pocket and formed on an outer surface of the compartment, the outer surface including at least the front surface, rear surface, top surface, bottom surface or side surface. The detachable pocket is attached to the compartment via the at least one pocket receiving portion to form an opening of the pocket configured to receive an object via the opening.
Abstract translation: 具有可拆卸袋的行李容器包括至少具有前,后,顶,底和侧表面的隔室和至少一个凹部接收部分,该凹部接收部分构造成容纳可拆卸的袋并形成在隔室的外表面上,该外表面包括 至少前表面,后表面,顶表面,底表面或侧表面。 可拆卸的口袋通过至少一个口袋接收部分附接到隔间,以形成口袋的开口,其构造成经由开口接收物体。
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公开(公告)号:US07554797B2
公开(公告)日:2009-06-30
申请号:US11395956
申请日:2006-03-30
Applicant: Chris Yu , Yung-Chi Yang
Inventor: Chris Yu , Yung-Chi Yang
CPC classification number: G06F1/1656 , G06F1/1613 , Y10T29/53174
Abstract: A fixing structure for fixing a casing and a base frame of an electronic device together includes: a melt hole disposed in the base frame and a melt post formed on the casing, wherein the melt hole is provided with an opening having its diameter being gradually enlarged from inside outward, so that when combining the casing with the base frame, the melt post passes through the melt hole and is exposed by the opening. Through the design of the opening, the fixing effect upon melting can be strengthened without occupying a lot of space around the melt hole.
Abstract translation: 用于将电子设备的壳体和基座固定在一起的固定结构包括:设置在基座框架中的熔体孔和形成在壳体上的熔体柱,其中熔体孔设置有其直径逐渐扩大的开口 从内向外,使得当将壳体与基架组合时,熔体柱穿过熔体孔并被开口暴露。 通过开口的设计,可以加强熔融时的固定效果,而不会在熔体孔周围占用大量空间。
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公开(公告)号:US20060228051A1
公开(公告)日:2006-10-12
申请号:US11101981
申请日:2005-04-07
Applicant: Chris Yu
Inventor: Chris Yu
CPC classification number: A45C7/0077
Abstract: An apparatus is disclosed for carrying articles capable of collapsing into a smaller configuration. The apparatus comprises a first wall, a second wall, and a bag receiving portion, wherein edges of the first wall and the second wall are substantially joined together to form a bag. A flap is disposed on a portion of a front surface of the first wall for forming a pocket. A first zipper track and a second zipper track are disposed proximal to a portion of an outer edge of the flap for at least one of selectively attaching and detaching a portion of the flap from the front surface. When the bag is not in use, the first wall and the second wall are contracted into a compressed state and an outer surface of the flap and a portion of the first wall defines a container adapted for receiving and concealing the bag from view by a user.
Abstract translation: 公开了一种用于携带能够折叠成较小构造的物品的装置。 该装置包括第一壁,第二壁和袋接收部分,其中第一壁和第二壁的边缘基本上接合在一起以形成袋。 翼片设置在第一壁的前表面的一部分上以形成袋。 第一拉链轨道和第二拉链轨道设置在翼片的外边缘的一部分附近,用于选择性地将翼片的一部分从前表面附接和分离。 当袋不使用时,第一壁和第二壁收缩成压缩状态,并且翼片的外表面和第一壁的一部分限定了适于由使用者接收和隐藏袋子的容器 。
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公开(公告)号:US07093699B2
公开(公告)日:2006-08-22
申请号:US10971854
申请日:2004-10-22
Applicant: Chris Yu
Inventor: Chris Yu
CPC classification number: A45C13/002 , A45C5/14 , A45C7/0068
Abstract: A luggage cover for covering a luggage container, comprising a plurality of panels comprising a front panel, a rear panel, a top panel, a bottom panel, a first side panel, and a second side panel, the panels capable of being shaped into a protective shell for covering the luggage container, and a first fastening apparatus for detachably fastening the plurality of panels together to maintain the shape of the protective shell, wherein one of the plurality of panels is an expandable panel.
Abstract translation: 一种用于覆盖行李箱的行李箱,包括多个面板,包括前面板,后面板,顶板,底板,第一侧板和第二侧板,所述面板能够成形为 用于覆盖行李箱的保护壳,以及用于将多个面板可拆卸地紧固在一起以保持保护壳的形状的第一紧固装置,其中多个面板中的一个是可扩展面板。
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