Mostafa M.
Mostafa M. Ebeid, Houston, TX US
Patent application number | Description | Published |
---|---|---|
20140015530 | ELECTRONICS FOR A THIN BED ARRAY INDUCTION LOGGING SYSTEM - A logging tool electronics system is disclosed (FIG. | 01-16-2014 |
Mostafa M. Ei-Ashry, Elmsford, NY US
Patent application number | Description | Published |
---|---|---|
20130164882 | TRANSPARENT CONDUCTING LAYER FOR SOLAR CELL APPLICATIONS - Disclosed is a method which includes forming a bottom metallic electrode on an insulating substrate; forming a semiconductor junction on the metallic electrode; forming a transparent conducting overlayer in contact with the semiconductor junction; and forming a metallic layer in contact with the transparent conducting overlayer, wherein the metallic layer is formed by a plating process. The plating process may be an electroplating process or an electroless plating process. The transparent conducting overlayer may be carbon nanotubes or graphene. The semiconductor junction may be a p-i-n semiconductor junction, a p-n semiconductor junction, an n-p semiconductor junction or an n-i-p semiconductor junction. | 06-27-2013 |
Mostafa M. El-Ashry, Elmsford, NY US
Patent application number | Description | Published |
---|---|---|
20120156393 | Deposition of Hydrogenated Thin Film - A hydrogenated thin film is formed in a controlled vacuum on a substrate by evaporating one or more solid materials and passing the resulting vapor and a hydrogen-containing gas into a space between two electrodes. One of the electrodes includes openings for allowing the vapor to enter the space. Plasma is generated within the space to cause dissociation of the hydrogen-containing gas and promote a reaction between the material(s) and hydrogen-containing gas. | 06-21-2012 |
20120282395 | Doped Carbon Nanotubes and Transparent Conducting Films Containing the Same - Transparent conducting electrodes include a doped single walled carbon nanotube film and methods for forming the doped single walled carbon nanotube (SWCNT) by solution processing. The method generally includes depositing single walled carbon nanotubes dispersed in a solvent and a surfactant onto a substrate to form a single walled carbon nanotube film thereon; removing all of the surfactant from the carbon nanotube film; and exposing the single walled carbon nanotube film to a single electron oxidant in a solution such that one electron is transferred from the single walled carbon nanotubes to each molecule of the single electron oxidant. | 11-08-2012 |
20130130077 | COMPOSITE ANODE STRUCTURE FOR HIGH ENERGY DENSITY LITHIUM-ION BATTERIES - An electrode includes a conductive substrate and a plurality of conductive structures providing a compressible matrix of material. An active material is formed in contact with the plurality of conductive structures. The active material includes a volumetrically expanding material which expands during ion diffusion such that the plurality of conductive structures provides support for the active material and compensates for volumetric expansion of the active material to prevent damage to the active material. | 05-23-2013 |
Mostafa M. El-Ashry, Sphinx EG
Patent application number | Description | Published |
---|---|---|
20150302950 | DOPED CARBON NANOTUBES AND TRANSPARENT CONDUCTING FILMS CONTAINING THE SAME - Transparent conducting electrodes include a doped single walled carbon nanotube film and methods for forming the doped single walled carbon nanotube (SWCNT) by solution processing. The method generally includes depositing single walled carbon nanotubes dispersed in a solvent and a surfactant onto a substrate to form a single walled carbon nanotube film thereon; removing all of the surfactant from the carbon nanotube film; and exposing the single walled carbon nanotube film to a single electron oxidant in a solution such that one electron is transferred from the single walled carbon nanotubes to each molecule of the single electron oxidant. | 10-22-2015 |
Mostafa M. El Baradei, Cairo EG
Patent application number | Description | Published |
---|---|---|
20100162135 | USER EVALUATION IN A COLLABORATIVE ONLINE FORUM - Users of a collaborative online forum may be evaluated automatically with the results made available to a supervisor. In an example embodiment, a method involves accessing multiple posts that are associated with multiple users, with each post of the multiple posts including content. Post scores for the multiple posts are ascertained based on one or more features. User interactions are analyzed with regard to the multiple posts to identify relationships among the multiple users and the content included in the multiple posts. The post scores and the user interactions are evaluated to determine respective collaboration scores for respective users of the multiple users. A user interface that provides access to the collaboration scores is presented to a supervisor. | 06-24-2010 |
Mostafa M. Kharadly, Vancouver CA
Patent application number | Description | Published |
---|---|---|
20080204342 | Reflector Antenna - A reflector antenna includes a feed configured to always point during operation in a direction that opposes ingress of water into the feed, and a reflector having a truncated spherical reflecting surface, wherein a relative orientation of the reflector and the feed is adjustable. Another reflector antenna includes a feed configured to always point during operation in a direction that opposes ingress of water into the feed, and a reflector spaced apart from the feed by a focal length at least as great as a diameter of the reflector. Another reflector antenna includes a feed and a reflector having a truncated spherical reflecting surface, wherein the reflector is spaced apart from the feed by a focal length at least as great as a diameter of the reflector. | 08-28-2008 |