Shabnam
Shabnam Eidizadeh, Lutz, FL US
Patent application number | Description | Published |
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20110160124 | ANTIMICROBIAL PROTEIN COMPOSITIONS AND PRODUCTION THEREFOR FROM MARINE BACTERIA - Several bacterial species were isolated from marine segment obtained from seabed sediment at depths exceeding 1700 feet. At least four of the bacteria produced a compound that showed antibacterial activity against one or more multiple-drug-resistant (MDR) bacteria isolated from hospitals and clinics. One isolate, SJCH-12, exhibited a broad range of activity against MDR strains tested, including methicillin resistant | 06-30-2011 |
20120289456 | ANTIMICROBIAL PROTEIN COMPOSITIONS AND USES THEREOF - Several bacterial species were isolated from marine segment obtained from seabed sediment at depths exceeding 1700 feet. At least four of the bacteria produced a compound that showed antibacterial activity against one or more multiple-drug-resistant (MDR) bacteria isolated from hospitals and clinics. One isolate, SJCH-12, exhibited a broad range of activity against MDR strains tested, including methicillin resistant | 11-15-2012 |
Shabnam Erfani, Kirkland, WA US
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20090164738 | Process Based Cache-Write Through For Protected Storage In Embedded Devices - A system including a write protected storage device, which utilizes a write cache to hold data intended to be written to the device, determines when data should be allowed to write through to the device instead of being cached. A unique identifier is determined for the requesting process and that identifier is used to check a pre-configured set of processes which have been specified as trusted to write to the device. An exemplary approach uses a dynamic store of process IDs for those processes having made previous requests, a persistent store of application names, and a mapping process to obtain an application name for process IDs which are not yet present in the dynamic store. | 06-25-2009 |
Shabnam Hajesmaili, Strasbourg FR
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20100239470 | Photocatalysts Based on Structured Three-Dimensional Carbon or Carbon-Containing Material Forms - The invention relates to a photocatalyst comprising a cellular foam selected from carbon foam and the foam of a carbon material, such as a polymer, and a photocatalytically active phase, deposited directly on said cellular foam or on an intermediate phase deposited on said cellular foam. The average size of the cells is between 2500 μm and 5000 μm. The foam can comprise nanotubes or nanofibers (in particular TiO | 09-23-2010 |
20110262312 | PHOTOCATALYSTS BASED ON STRUCTURED THREE-DIMENSIONAL CARBIDE, IN PARTICULAR B-SIC, FOAMS - The invention relates to a photocatalyst comprising a β-SiC cellular foam and a photocatalytically active phase, deposited directly on said cellular foam or on an intermediate phase deposited on said cellular foam. The average size of the cells is between 2500 μm and 5000 μm. The foam can comprise nanotubes or nanofibers (particularly of carbon, SiC, and TiO | 10-27-2011 |
Shabnam Raayai Ardakani, Cambridge, MA US
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20140017454 | Thin Films with Micro-Topologies Prepared by Sequential Wrinkling - One aspect of the invention relates to a method of forming a micro- or nano-pattern on the surface of a composite material. The pattern may be a herringbone pattern with a jog angle of greater than or less than 90° or a graded wrinkled pattern. The micro- or nano-patterns on composite materials produced by the methods may be used to modulate, confer or control thin film material properties; as the basis for thickness measurements; to enhance light extraction in OLED; to enhance light harvest in opto-electronic devices; to tune adhesion properties, wetting, and friction of surfaces; to reduce fluid flow drag; and for anti-fouling purposes. | 01-16-2014 |
Shabnam Shafiee Haji Abadi, North Bethesda, MD US
Patent application number | Description | Published |
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20130221964 | REDUCING NOISE IN MAGNETIC RESONANCE IMAGING USING CONDUCTIVE LOOPS - A method of processing an electrical signal includes: capturing, via at least one main lead, an electrical signal; capturing, via at least one noise lead, a noise reference signal, wherein the at least one noise lead includes at least one conductive loop formed on a plane; receiving, by a processing device, the electrical signal and the noise reference signal; and processing, by the processing device, the electrical signal to cancel the noise reference signal from the electrical signal to obtain a processed electrical signal. | 08-29-2013 |
Shabnam Tangri, San Diego, CA US
Patent application number | Description | Published |
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20090169574 | Heteroclitic analogs and related methods - Heteroclitic analogs of Class I epitopes are prepared by providing conservative or semi-conservative amino acid substitutions at positions 3 and/or 5 and/or 7 of these epitopes. The analogs are useful in eliciting immune responses with respect to the corresponding wildtype epitopes. | 07-02-2009 |
20090252725 | Use of CD23 Antibodies to Treat Malignancies in Patients with Poor Prognosis - The invention relates to methods of treating B-cell chronic lymphocytic leukemia, and other CD23 | 10-08-2009 |
20100203010 | MODULATION OF TUMOR MICROENVIRONMENT - Compositions comprising CD80-targeted therapeutics and methods of using these compositions are provided for the treatment of a disease or disorder in which CD80-expressing cells or regulatory T cell function contribute to or exacerbate the associated pathology. | 08-12-2010 |
Shabnam Virji-Khalfan, Yorba Linda, CA US
Patent application number | Description | Published |
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20140004031 | METHOD OF PURIFYING NANODIAMOND POWDER AND PURIFIED NANODIAMOND POWDER | 01-02-2014 |
Shabnam Virji-Khalfan, Tucson, AZ US
Patent application number | Description | Published |
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20150125379 | METHOD OF PURIFYING NANODIAMOND POWDER AND PURIFIED NANODIAMOND POWDER - A method of purifying a nanodiamond powder includes preparing the nanodiamond powder, heating the nanodiamond powder at between 450° C. and 470° C. in an atmosphere including oxygen, performing a hydrochloric acid treatment on the heated nanodiamond powder, and performing a hydrofluoric acid treatment on the nanodiamond powder obtained after performing the hydrochloric acid treatment. | 05-07-2015 |