Patent application number | Description | Published |
20080319143 | METAL OXIDE COATINGS - Compounds of formula I may be hydrolyzed to produce metal oxides | 12-25-2008 |
20080319212 | METAL OXIDE COATINGS - Compounds of formula I may be hydrolyzed to produce metal oxides | 12-25-2008 |
20090159677 | CONTACTLESS POWER AND DATA TRANSFER SYSTEM AND METHOD - A contactless power and data transfer system is disclosed. The system includes an encapsulated optoelectronic semiconductor device at least partly disposed within a barrier encapsulation, and a contactless power transfer system configured to transfer at least one of power and data across the barrier encapsulation. A method for manufacturing a contactless power and data transfer system is also disclosed. | 06-25-2009 |
20090289202 | Integrated Encapsulation Status Indicator - An integrated encapsulation status indicator comprising a reactive layer that provides a visible change upon exposure to oxygen and/or moisture and an optional inert layer, wherein both layers are encapsulated with an electronic device. Also disclosed are processes for detecting oxygen and/or moisture within an encapsulated optoelectronic device. | 11-26-2009 |
20090289235 | SOLUTION PROCESS FOR TRANSPARENT CONDUCTIVE OXIDE COATINGS - A process according to the present invention comprises
| 11-26-2009 |
20100043861 | ORGANIC PHOTOVOLTAIC DEVICES - The present invention generally relates to organic photosensitive optoelectronic devices. More specifically, it is directed to organic photovoltaic devices, e.g., organic solar cells. Further, it is directed to an optimized organic solar cell comprising multiple stacked subcells in series. High power conversion efficiency are achieved by fabrication of a photovoltaic cell comprising multiple stacked subcells with thickness optimization and employing an electron blocking layer. | 02-25-2010 |
20130157405 | MANUFACTURING METHODS FOR SEMICONDUCTOR DEVICES - A method of manufacturing semiconductor assemblies is provided. The manufacturing method includes thermally processing a first semiconductor assembly comprising a first semiconductor layer disposed on a first support and thermally processing a second semiconductor assembly comprising a second semiconductor layer disposed on a second support. The first and second semiconductor assemblies are thermally processed simultaneously, and the first and second semiconductor assemblies are arranged such that the first semiconductor layer faces the second semiconductor layer during the thermal processing. | 06-20-2013 |
20130192667 | PHOTOVOLTAIC DEVICES AND METHOD OF MAKING - A photovoltaic device is presented. The photovoltaic device includes a transparent conductive layer; a window layer disposed on the transparent conductive layer; and an absorber layer disposed on the window layer. The window layer includes a low-diffusivity layer disposed adjacent to the transparent conductive layer and a high-diffusivity layer interposed between the low-diffusivity layer and the absorber layer. Method of making a photovoltaic device is also presented. | 08-01-2013 |
20130261415 | SYSTEM AND METHODS FOR PHYSIOLOGICAL MONITORING - Embodiments of devices, methods, and non-transitory computer readable media for monitoring a subject are presented. The monitoring device includes at least one sensor configured to monitor one or more physiological parameters of a subject and a processing unit operatively coupled to the sensor. The sensor comprises a plurality of radiation sources and detectors disposed on a flexible substrate in a designated physical arrangement. The processing unit is configured to dynamically configure an operational geometry of the sensor by controlling the intensity of one or more of the radiation sources and the gain of one or more of the detectors so as to satisfy at least one quality metric associated with one or more physiological parameters of the subject. | 10-03-2013 |