Langebrake
Larry Langebrake, Seminole, FL US
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20100180953 | Thermally Induced Single-Use Valves and Method of Use - In accordance with an embodiment of the present invention, a thermally induced single-use valve is provided including a silicon wafer having a top surface and a bottom surface and at least one cavity formed in the bottom surface of the wafer, a thermally deformable membrane suspended across the cavity on the top surface of the wafer and at least one resistive element patterned on top of the thermally deformable membrane. | 07-22-2010 |
20120152835 | FUEL CELL DEVICES FOR USE IN WATER TREATMENT AND RECLAMATION PROCESSES - In some aspects, the disclosure provides methods and materials for generating electrical energy from wastewater treatment materials. For example, the methods involve selecting a pair of materials from a wastewater treatment facility and forming a microbial fuel cell using the pair of materials as anode and cathode materials. There are provided various configurations suitable for adaptation to existing wastewater treatment facilities, as well as design parameters for new wastewater treatment facilities, devices, or schemes that take advantage of the methods of the disclosure. | 06-21-2012 |
Larry Langebrake, St. Petersburg, FL US
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20140082932 | Method for the Fabrication of Electrolyte Cavities Using Bulk Micro-Machining - The present invention is directed to the fabrication of thin aluminum anode batteries using a highly reproducible process that enables high volume manufacturing of the galvanic cells. A method of fabricating a thin aluminum anode galvanic cell is provided, the method comprising, forming a recess in the silicon wafer, the recess having no more than three sidewalls, depositing a catalytic metal layer on a bottom surface of the recess, positioning a double-side sticky tape layer having a bottom side positioned to contact the no more than three sidewalls of the recess and positioning an aluminum foil layer to contact a top side of the double-side sticky tape layer and in overlying relation to the recess, thereby forming the galvanic cell. | 03-27-2014 |
20140209564 | Method for the Fabrication of Electrolyte Cavities Using Surface Micromachining - The present invention is directed to the fabrication of thin aluminum anode batteries using a highly reproducible process that enables high volume manufacturing of the galvanic cells. A method of fabricating a thin aluminum anode galvanic cell is provided, the method including, depositing a layer of catalytic metal on a surface of a first substrate, depositing and patterning a benzocyclobutene layer to form a reservoir having four sidewalls of benzocyclobutene on the surface of the catalytic layer, depositing a layer of aluminum on a surface of a second substrate and bonding the first substrate to the second substrate to form a galvanic cell bounded by the catalytic metal layer and the aluminum layer and separated by the reservoir walls of benzocyclobutene, the second substrate positioned in overlying relation to contact the four sidewalls of the reservoir with the aluminum layer facing the catalytic layer. | 07-31-2014 |
20140302406 | Electrode Mesh Galvanic Cells - The present invention is directed to the fabrication of thin aluminum anode batteries using a highly reproducible process that enables high volume manufacturing of the galvanic cells. A thin aluminum anode galvanic cell having a meshed structure is provided which includes a catalytic metal layer positioned on a patterned silicon substrate, an etched dielectric layer positioned to cover the catalytic metal layer, the catalytic metal layer serving as an etch stop for the etched dielectric layer and an etched aluminum layer positioned to cover the dielectric layer, the dielectric layer serving as an etch stop for the etched aluminum layer. | 10-09-2014 |
Larry C. Langebrake, Seminole, FL US
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20100216038 | METHOD AND SYSTEM FOR PROVIDING A FLOW THROUGH BATTERY CELL AND USES THEREOF - In one embodiment, the present invention relates generally to a method and system for providing a flow through battery cell and uses thereof. In one embodiment, the flow through battery cell includes an inlet for receiving a flow of water, a solid oxidizer coupled to said inlet for reacting with said flow of water to generate a catholyte, wherein the solid oxidizer comprises at least one of: an organic halamine, a succinimide or a hypochlorite salt, a galvanic module coupled to the solid oxidizer for receiving the catholyte and generating one or more effluents and an outlet for releasing the one or more effluents. | 08-26-2010 |
Lawrence Langebrake, Seminole, FL US
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20110107179 | METHOD AND APPARATUS FOR ERROR CORRECTION ON A MOBILE DEVICE - A method and apparatus for distributing dynamically reconfigurable content to a mobile device is provided. One embodiment of a method for encoding a data stream to enable error correction by a receiver of the data stream includes storing a block of the data stream in a first memory array, processing the first memory array to produce a second memory array, inverting the second memory array, and storing the second memory array, as inverted, as a third memory array. | 05-05-2011 |
L.c. Langebrake, Seminole, FL US
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20100118465 | Method of Manufacturing Silicon Topological Capacitors - In accordance with the present invention, a novel method to fabricate topological capacitors is provided. The fabrication method of the instant invention is based upon a reversed surface topology utilizing deep reactive ion etching to establish conductive capacitive elements and non-conductive capacitive element groups. | 05-13-2010 |