公开(公告)号：US20170365718A1

公开(公告)日：2017-12-21

申请号：US15188762

申请日：2016-06-21

Applicant: Chan-Long Shieh ,  Gang Yu ,  Guangming Wang

Inventor： Chan-Long Shieh ,  Gang Yu ,  Guangming Wang

IPC: H01L29/786 ,  H01L21/477 ,  H01L29/66 ,  H01L21/467

CPC classification number: H01L29/7869 ,  H01L21/467 ,  H01L21/477 ,  H01L29/66969

Abstract: A method of passivating a MOTFT including providing a metal oxide thin film transistor having a surface defined by spaced apart source/drain terminals positioned on a layer of semiconductor metal oxide and material in a space between the source/drain terminals, the space between the source/drain terminals defining a conduction channel in the layer of semiconductor metal oxide. Forming a layer of passivation material on the surface defined by the spaced apart source/drain terminals and the material in the space between the source/drain terminals. Establishing oxygen vacancy equilibrium in the conduction channel of the layer of semiconductor metal oxide by annealing in an oxygen containing ambient the MOTFT and layer of passivation material and depositing a layer including a noble metal, a refractory metal, and/or a transparent conducting metal oxide on the layer of passivation material overlying the space between the source/drain terminals.

公开(公告)号：US09608017B2

公开(公告)日：2017-03-28

申请号：US14635865

申请日：2015-03-02

Applicant: Chan-Long Shieh ,  Fatt Foong ,  Gang Yu ,  Guangming Wang

Inventor： Chan-Long Shieh ,  Fatt Foong ,  Gang Yu ,  Guangming Wang

IPC: H01L27/12 ,  H01L29/786 ,  H01L51/05 ,  H01L51/56

CPC classification number: H01L27/1266 ,  H01L27/1222 ,  H01L27/1225 ,  H01L29/78669 ,  H01L29/78678 ,  H01L29/7869 ,  H01L51/003 ,  H01L51/0541 ,  H01L51/0545 ,  H01L51/56 ,  H01L2227/323 ,  H01L2227/326

Abstract: The process of fabricating a flexible TFT back-panel includes depositing etch stop material on a glass support. A matrix of contact pads, gate electrodes and gate dielectric are deposited overlying the etch stop material. Vias are formed through the dielectric in communication with each pad. A matrix of TFTs is formed by depositing and patterning metal oxide semiconductor material to form an active layer of each TFT overlying the gate electrode. Source/drain metal is deposited on the active layer and in the vias in contact with the pads, the source/drain metal defining source/drain terminals of each TFT. Passivation material is deposited in overlying relationship to the TFTs. A color filter layer is formed on the passivation material and a flexible plastic carrier is affixed to the color filter. The glass support member and the etch stop material are then etched away to expose a surface of each of the pads.

公开(公告)号：US20160260752A1

公开(公告)日：2016-09-08

申请号：US14635865

申请日：2015-03-02

Applicant: Chan-Long Shieh ,  Fatt Foong ,  Gang Yu ,  Guangming Wang

Inventor： Chan-Long Shieh ,  Fatt Foong ,  Gang Yu ,  Guangming Wang

IPC: H01L27/12 ,  H01L51/05 ,  H01L51/56 ,  H01L29/786

CPC classification number: H01L27/1266 ,  H01L27/1222 ,  H01L27/1225 ,  H01L29/78669 ,  H01L29/78678 ,  H01L29/7869 ,  H01L51/003 ,  H01L51/0541 ,  H01L51/0545 ,  H01L51/56 ,  H01L2227/323 ,  H01L2227/326

Abstract: The process of fabricating a flexible TFT back-panel includes depositing etch stop material on a glass support. A matrix of contact pads, gate electrodes and gate dielectric are deposited overlying the etch stop material. Vias are formed through the dielectric in communication with each pad. A matrix of TFTs is formed by depositing and patterning metal oxide semiconductor material to form an active layer of each TFT overlying the gate electrode. Source/drain metal is deposited on the active layer and in the vias in contact with the pads, the source/drain metal defining source/drain terminals of each TFT. Passivation material is deposited in overlying relationship to the TFTs. A color filter layer is formed on the passivation material and a flexible plastic carrier is affixed to the color filter. The glass support member and the etch stop material are then etched away to expose a surface of each of the pads.

Abstract translation: 制造柔性TFT后面板的过程包括在玻璃支架上沉积蚀刻停止材料。 接触焊盘，栅极电极和栅极电介质的矩阵沉积在蚀刻停止材料上。 通过与每个焊盘连通的电介质形成通孔。 通过沉积和图案化金属氧化物半导体材料形成TFT的矩阵，以形成覆盖栅电极的每个TFT的有源层。 源极/漏极金属沉积在有源层上，并且在与焊盘接触的通孔中，源极/漏极金属限定每个TFT的源极/漏极端子。 钝化材料以与TFT相重叠的关系沉积。 在钝化材料上形成滤色器层，并将柔性塑料载体固定在滤色器上。 然后将玻璃支撑构件和蚀刻停止材料蚀刻掉以暴露每个焊盘的表面。

公开(公告)号：US20140349356A1

公开(公告)日：2014-11-27

申请号：US14344608

申请日：2012-09-13

Applicant: Min Jiang ,  Min Zhang ,  Jiangfeng Ma ,  Hao Wu ,  Liya Liang ,  Rongming Liu ,  Guangming Wang ,  Ping Wei

Inventor： Min Jiang ,  Min Zhang ,  Jiangfeng Ma ,  Hao Wu ,  Liya Liang ,  Rongming Liu ,  Guangming Wang ,  Ping Wei

IPC: C12P7/46

CPC classification number: C12P7/46 ,  C07C51/412 ,  C07C51/43 ,  C07C51/44 ,  C07C55/10

Abstract: This invention belongs to the field of biochemical engineering and relates to a method of cyclic utilization of water during separation of succinic acid made by fermentation. This invention uses water from separation process for aerobic growth of E.coli AFP111 and production of succinic acid by anaerobic fermentation, obtaining final succinic acid concentration of 55 g/L and yield of 91.6%. Compared with results of fermentation using culture medium prepared from tap water, succinic acid concentration and productivity increased by 8.5% and 8.46%, respectively. An outstanding advantage of this invention is recovery and utilization of evaporated water during separation of succinic acid, realizing cyclic use of water during industrial production of succinic acid, which is an environment-friendly process. Also, as evaporated water generated during separation of succinic acid contains small amount of organic acids such as acetic acid and formic acid, if this water is used for aerobic growth of thalli, the small amount of organic acids contained therein can be used as gluconeogenesis carbon source, improving activity of some key enzymes in cell and favoring succinic acid production by anaerobic fermentation of thalli.

Abstract translation: 本发明属于生物化学工程领域，涉及通过发酵制备的琥珀酸分离期间循环利用水的方法。 本发明利用分离过程中的水分进行大肠杆菌AFP111的有氧生长，通过厌氧发酵生产琥珀酸，得到最终琥珀酸浓度为55g / L，产率为91.6％。 与使用自来水制备的培养基的发酵结果相比，琥珀酸浓度和产率分别提高了8.5％和8.46％。 本发明的突出优点是分离琥珀酸期间蒸发水的回收利用，在工业生产琥珀酸期间循环使用水，这是一个环保的工艺。 另外，由于琥珀酸分离过程中产生的蒸发水含有少量的有机酸如乙酸和甲酸，所以如果这种水用于铊的有氧生长，其中所含的少量有机酸可用作糖异生碳 来源，改善细胞中一些关键酶的活性，并通过thalli的厌氧发酵有利于琥珀酸生产。

公开(公告)号：US08346347B2

公开(公告)日：2013-01-01

申请号：US11522124

申请日：2006-09-15

Applicant: Gregory Altshuler ,  Guangming Wang ,  Henry Zenzie

Inventor： Gregory Altshuler ,  Guangming Wang ,  Henry Zenzie

IPC: A61B6/00 ,  G01J1/42 ,  A61B18/18 ,  A61B5/06

CPC classification number: A61B5/0082 ,  A61B5/0059 ,  A61B5/443 ,  A61B5/444 ,  A61B5/445 ,  A61B5/6843

Abstract: The present invention is generally directed to dermatological devices and methods in which one or more skin characteristics, such as the melanin index, are determined by analyzing radiation backscattered from a skin region illuminated by at least one, and preferably, two or more wavelengths, e.g., in a range of about 600 nm to about 900 nm. In many embodiments, the radiation is coupled to the skin via a waveguide, and an optical sensor is employed to ascertain contact between the waveguide (e.g., a waveguide surface adapted for contact with the skin) and the skin.

Abstract translation: 本发明一般涉及皮肤病学装置和方法，其中通过分析由至少一个，优选地，两个或更多个波长照射的皮肤区域反向散射的辐射来确定一种或多种皮肤特征，例如黑色素指数，例如 在约600nm至约900nm的范围内。 在许多实施例中，辐射通过波导耦合到皮肤，并且使用光学传感器来确定波导（例如，适于与皮肤接触的波导表面）和皮肤之间的接触。

公开(公告)号：US20110264591A1

公开(公告)日：2011-10-27

申请号：US13174469

申请日：2011-06-30

Applicant: YUBIN SONG ,  GUANGMING WANG ,  YOULI LIAN ,  BO ZHANG ,  QIONG LIU ,  YANFEN QIN ,  XUE WANG ,  LISHENG ZHANG

Inventor： YUBIN SONG ,  GUANGMING WANG ,  YOULI LIAN ,  BO ZHANG ,  QIONG LIU ,  YANFEN QIN ,  XUE WANG ,  LISHENG ZHANG

IPC: G06Q10/00

CPC classification number: G06Q10/06 ,  G06Q10/10 ,  G06Q10/101

Abstract: The present invention provides a method and a platform of integrating a heterogeneous workgroup collaborative design system and a PLM system, which is suitable for collaborative design of a large complex product, realizes integration of heterogeneous 3D CAD collaborative design system and PDM system, guarantees consistency of parameter and state between 3D CAD data and PDM data, and facilitates automatic circulation of design data from a product R&D platform to a manufacture executing platform. It implements integration of Pro/E-Intralink and SAP-PLM, transmits the product R&D data in the Pro/E-Intralink to the SAP-PLM, creating or changing corresponding material, voucher, and EBOM, realizes review and re-sign of document, associates the data object with the design project PS or change object, and meanwhile automatically transmits back its property and state to the Pro/E-Intralink, thereby realizing automatic circulation of the R&D data from the Pro/E-Intralink to PDM-ERP.

Abstract translation: 本发明提供了一种整合异构工作组协同设计系统和PLM系统的方法和平台，适用于大型复杂产品的协同设计，实现异构3D CAD协同设计系统与PDM系统的集成，保证了 3D CAD数据和PDM数据之间的参数和状态，有助于将设计数据从产品研发平台自动循环到制造执行平台。 实现Pro / E-Intralink和SAP-PLM的集成，将Pro / E-Intralink中的产品研发数据传输到SAP-PLM，创建或更改相应的材料，凭证和EBOM，实现审查和重新签署 文档，将数据对象与设计项目PS或变更对象相关联，同时自动将其属性和状态传回给Pro / E-Intralink，从而实现从Pro / E-Intralink到PDM- ERP。

公开(公告)号：US20130072803A1

公开(公告)日：2013-03-21

申请号：US13677998

申请日：2012-11-15

Applicant: Gregory Altshuler ,  Guangming Wang ,  Henry Zenzie

Inventor： Gregory Altshuler ,  Guangming Wang ,  Henry Zenzie

IPC: A61B5/00

CPC classification number: A61B5/0082 ,  A61B5/0059 ,  A61B5/443 ,  A61B5/444 ,  A61B5/445 ,  A61B5/6843

Abstract: The present invention is generally directed to dermatological devices and methods in which one or more skin characteristics, such as the melanin index, are determined by analyzing radiation backscattered from a skin region illuminated by at least one, and preferably, two or more wavelengths, e.g., in a range of about 600 nm to about 900 nm. In many embodiments, the radiation is coupled to the skin via a waveguide, and an optical sensor is employed to ascertain contact between the waveguide (e.g., a waveguide surface adapted for contact with the skin) and the skin.

Abstract translation: 本发明一般涉及皮肤病学装置和方法，其中通过分析由至少一个，优选地，两个或更多个波长照射的皮肤区域反向散射的辐射来确定一种或多种皮肤特征，例如黑色素指数，例如 在约600nm至约900nm的范围内。 在许多实施例中，辐射通过波导耦合到皮肤，并且使用光学传感器来确定波导（例如，适于与皮肤接触的波导表面）和皮肤之间的接触。

公开(公告)号：US20050267346A1

公开(公告)日：2005-12-01

申请号：US11048005

申请日：2005-01-31

Applicant: Ralf Faber ,  Erik Schwendeman ,  Guangming Wang

Inventor： Ralf Faber ,  Erik Schwendeman ,  Guangming Wang

IPC: A61B5/00

CPC classification number: A61B5/0059 ,  A61B5/14532 ,  A61B5/1455

Abstract: Non-invasive, optical apparatus and methods for the direct measurement of hemoglobin derivatives and other analyte concentration levels in blood using diffuse reflection and transmission spectroscopy in the wavelength region 400-1350 nm which includes the transparent tissue window from approximately 610 to 1311 nanometers and, using diffuse reflection spectroscopy, the mid-infrared region from 4.3-12 microns in wavelength. Large area light collection techniques are utilized to provide a much larger pulsate signal than can be obtain with current sensor technology. Sensors used in separate or simultaneous precision measurements of both diffuse reflection and transmission, either separately or simultaneously, from pulsate, blood-perfused tissue for the subsequent determination of the blood analytes concentrations such as arterial blood oxygen saturation (SaO2), carboxyhemoglobin (COHb), oxyhemoglobin (OHb), deoxyhemoglobin (dOHb), methemoglobin (metHb), water (H2O), hematocrit (HCT), glucose, cholesterol and proteins such as albumin and other analytes components.

Abstract translation: 用于直接测量血红蛋白衍生物和血液中其他分析物浓度水平的非侵入性光学装置和方法，其使用包括约610至1311纳米的透明组织窗口的波长区域400-1350nm的漫反射和透射光谱， 使用漫反射光谱，中红外区域波长为4.3-12微米。 利用大面积采集技术提供比当前传感器技术可获得的更大的脉动信号。 传感器用于单独或同时精确测量漫反射和透射（单独或同时）从脉动，血液灌注组织进行精确测量，以便随后测定血液分析物浓度，例如动脉血氧饱和度（SaO 2 / （H2O2），血红蛋白（HCT），葡萄糖，胆固醇和蛋白质如白蛋白和其他分析物成分组成的组合物，其中，血红蛋白（COHb），氧合血红蛋白（OHb），脱氧血红蛋白（dOHb），高铁血红蛋白（metHb）