Domine
Didier Domine, Neuchätel CH
Patent application number | Description | Published |
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20100126575 | TEXTURED TRANSPARENT CONDUCTIVE LAYER AND METHOD OF PRODUCING IT - The textured transparent conductive layer according to the invention is deposited on a substrate intended for a photoelectric device and exhibiting a surface morphology formed from a sequence of humps and hollows. It is characterized in that its hollows have a rounded base with a radius of more than 25 nm; the said hollows are virtually smooth, which is to say that, where they exhibit microroughnesses, these microroughnesses have a height on average of less than 5 nm; and its flanks form an angle with the plane of the substrate whose median of the absolute value is between 30° and 75°. | 05-27-2010 |
Didier Domine, Neuchätel CH
Patent application number | Description | Published |
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20100126575 | TEXTURED TRANSPARENT CONDUCTIVE LAYER AND METHOD OF PRODUCING IT - The textured transparent conductive layer according to the invention is deposited on a substrate intended for a photoelectric device and exhibiting a surface morphology formed from a sequence of humps and hollows. It is characterized in that its hollows have a rounded base with a radius of more than 25 nm; the said hollows are virtually smooth, which is to say that, where they exhibit microroughnesses, these microroughnesses have a height on average of less than 5 nm; and its flanks form an angle with the plane of the substrate whose median of the absolute value is between 30° and 75°. | 05-27-2010 |
Didier Domine, Bienne CH
Patent application number | Description | Published |
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20110260164 | MULTIPLE-JUNCTION PHOTOELECTRIC DEVICE AND ITS PRODUCTION PROCESS - A multiple-junction photoelectric device includes a substrate with a first conducting layer thereon, at least two elementary photoelectric devices of p-i-n or p-n configuration, with a second conducting layer thereon, and at least one intermediate layer between two adjacent elementary photoelectric devices. The intermediate layer has, on the incoming light side, opposite top and bottom faces, the top and bottom faces having respectively a surface morphology including inclined elementary surfaces so α | 10-27-2011 |
Marcelo Eduardo Domine, Valencia ES
Patent application number | Description | Published |
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20080234510 | Method of Obtaining Polyoxygenated Organic Compounds - The invention relates to a method of obtaining polyoxygenated organic compounds. The inventive method is characterized in that it comprises the oxidation reaction of a diether, preferably an acetal, with an oxygen source, in the presence of: one or more radical initiating agents, one or more additives that generate a basic reaction medium, and one or more catalysts. | 09-25-2008 |
20090234145 | METHOD AND CATALYSTS FOR THE EPOXIDATION OF OLEFINIC COMPOUNDS IN THE PRESENCE OF OXYGEN - The invention relates to a method for the epoxidation of an olefinic compound, which is characterised in that it comprises an oxidation reaction of at least one olefinic compound containing one or more double bonds C═C with oxygen in the presence of one or more reaction initiating agents, at least one catalyst containing at least one metal that is selected from a noble metal, a transition metal and mixtures of same, and at least one hydrocarbon that is selected from one or more branched alkanes, one or more alkyl cyclic or cyclic hydrocarbons, one or more alkyl aromatic or aromatic compounds and mixtures of same. | 09-17-2009 |
Sebastien Julien Domine, San Jose, CA US
Patent application number | Description | Published |
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20090037774 | CLIENT SERVER SYSTEM FOR ANALYSIS AND PERFORMANCE TUNING OF REMOTE GRAPHICS DEVICES - Embodiments of the invention provide a data communications protocol and client server architecture used for the performance analysis and debugging of a graphics application running on a remote device. The remote device may be a hand-held video game console, a mobile phone, or convergence device, but may also be a personal computer system. A graphical application debugger may include a host component and a target component. The host component executes on a host system and presents a debugging interface to a developer. The target component may record data related to the performance of a graphics pipeline on the target device and transmit this data back to the host system over a communication link. The target component may be included as part of an instrumented version of a graphics device driver. | 02-05-2009 |