Hallac
Abdulkadir Hallac, Plano, TX US
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20100200573 | WIDE WAVEGUIDE APPLICATOR - A microwave waveguide applicator and a method for heating, drying, or curing generally planar materials or products. The applicator comprises a waveguide having a pair of opposing broad sides perpendicular to a pair of opposing narrow sides bounding a rectangular exposure chamber. A microwave source generates and propagates microwaves through the chamber in a propagation direction and with an electric field generally directed from one broad wall to the other. Slotted openings in the narrow sides act as entrance and exit ports for a conveyor transporting a product along a conveying path through the chamber perpendicular to the propagation direction and perpendicular to the electric field. The waveguide may be ridged to focus or bend the electric field, especially for heating thin materials. | 08-12-2010 |
Abdulkadir Hallac, Morrisville, NC US
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20100163555 | Microwave T-Junction Applicator - A T-junction microwave applicator and a method for making a T-junction microwave applicator with a microwave source supplying electromagnetic energy through a junction arm to a pair of collinear arms extending in opposite directions from their junction with the junction arm. The two collinear arms form a main waveguide terminated in end walls in which entrance and exit ports are formed for a conveyor to convey material to be heated through the main waveguide for exposure to electromagnetic energy. A rectangular conductive ridge in the wall of the main waveguide opposite the junction arm extends the length of the applicator. A cylindrical tuning bar spanning the junction is positioned vertically in a plane perpendicular to the axis of the main waveguide to maximize power transfer to the material to be heated. | 07-01-2010 |
Bassem Hallac, Jerusalem IL
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20140242867 | LIGNIN COMPOSITIONS, METHODS OF PRODUCING THE COMPOSITIONS, METHODS OF USING LIGNIN COMPOSITIONS, AND PRODUCTS PRODUCED THEREBY - Lignin compositions, products produced from them or containing them, methods to produce them, spinning methods, methods to convert lignin to a conversion product and conversion products produced by the methods are described. | 08-28-2014 |
20150087031 | METHODS FOR TREATING LIGNOCELLULOSIC MATERIALS - The present invention relates to methods of processing lignocellulosic material to obtain hemicellulose sugars, cellulose sugars, lignin, cellulose and other high-value products. Also provided are hemicellulose sugars, cellulose sugars, lignin, cellulose, and other high-value products. | 03-26-2015 |
Bassem Hallac, Jerusalem, IL US
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20140171379 | LIGNIN COMPOSITIONS, METHODS OF PRODUCING THE COMPOSITIONS, METHODS OF USING LIGNIN COMPOSITIONS, AND PRODUCTS PRODUCED THEREBY - Lignin compositions, lignin particles, products containing them, viscous paste containing lignin, lignin formulations, spinning methods, fibers, products produced from the fibers, methods to produce processed products from lignin, methods to produce downstream products, manufacturing processes and related products are described. | 06-19-2014 |
Boutros Hallac, Milwaukee, WI US
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20130260209 | POLYSULFONE COATING FOR HIGH VOLTAGE LITHIUM-ION CELLS - The performance of a lithium ion-cell where the cathode is a layered-layered lithium rich cathode material xLiMO | 10-03-2013 |
Boutros Hallac, Franklin, WI US
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20140186723 | SYSTEMS AND METHODS FOR WIDE TEMPERATURE OPERATION FOR LITHIUM-ION BATTERY CELLS - The present disclosure relates generally to the field of batteries and battery modules. More specifically, the present disclosure relates to battery cells that may be used in vehicular contexts, as well as other energy storage/expending applications. An electrolyte solution includes at least one ester solvent and a plurality of additives. In particular, the plurality of additives includes a cyclic carbonate-based additive, a sultone-based additive, and either a borate-based additive or an imide-based additive. The presently disclosed electrolyte solutions enable the manufacture of battery cells having a wide operating temperature range (e.g., between approximately −30° C. and approximately 60° C.). | 07-03-2014 |
Peter Hallac, Fremont, CA US
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20100112443 | Lithium Secondary Batteries with Positive Electrode Compositions and Their Methods of Manufacturing - Positive electrodes for secondary batteries formed with a plurality of substantially aligned flakes within a coating. The flakes can be formed from metal oxide materials and have a number average longest dimension of greater than 60 μm. A variety of metal oxide or metal phosphate materials may be selected such as a group consisting of LiCoO | 05-06-2010 |
Peter Hallac, Milwaukee, WI US
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20110274976 | LITHIUM SECONDARY BATTERIES WITH POSITIVE ELECTRODE COMPOSITIONS AND THEIR METHODS OF MANUFACTURING - Positive electrodes for secondary batteries formed with a plurality of substantially aligned flakes within a coating. The flakes can be formed from metal oxide materials and have a number average longest dimension of greater than 100 μm. A variety of metal oxide or metal phosphate materials may be selected such as a group consisting Of LiCoO | 11-10-2011 |
Peter B. Hallac, Franklin, WI US
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20130337342 | Electrolyte Formulation for High Voltage and Wide Temperature Lithium-Ion Cells - An electrochemical cell provided with a positive electrode, a negative electrode, and an electrolyte. The positive electrode comprises a stabilized lithium metal oxide material, the lithium metal oxide material comprising one or more transition metal ions. The electrolyte is prepared by mixing ingredients comprising a solvent, a lithium salt, and a sultone. | 12-19-2013 |
Peter B. Hallac, Milwaukee, WI US
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20130115515 | CATHODE ACTIVE MATERIAL FOR OVERCHARGE PROTECTION IN SECONDARY LITHIUM BATTERIES - Provided herein is an electrode active material comprising a lithium metal oxide and an overcharge protection additive having an operating voltage higher than the operating voltage of the lithium metal oxide. | 05-09-2013 |