NEW ENERGY TECHNOLOGIES, INC. Patent applications |
Patent application number | Title | Published |
20150083190 | COATINGS FOR AIRCRAFT FUSELAGE SURFACES TO PRODUCE ELECTRICITY FOR MISSION-CRITICAL SYSTEMS AND MAINTENANCE LOAD ON COMMERCIAL AIRCRAFT - A variety of methods for fabricating organic photovoltaic-based electricity-generating commercial aircraft fuselage surfaces are described. In particular, a method for fabricating curved electricity-generating commercial aircraft fuselage surfaces utilizing lamination of highly flexible organic photovoltaic films is described. High-throughput and low-cost fabrication options also allow for economical production. | 03-26-2015 |
20150083189 | COATINGS FOR AIRCRAFT FUSELAGE SURFACES TO PRODUCE ELECTRICITY FOR MISSION-CRITICAL SYSTEMS ON MILITARY AIRCRAFT - A variety of methods for fabricating organic photovoltaic-based electricity-generating military aircraft fuselage surfaces are described. In particular, a method for fabricating curved electricity-generating military aircraft fuselage surfaces utilizing lamination of highly flexible organic photovoltaic films is described. High-throughput and low-cost fabrication options also allow for economical production. | 03-26-2015 |
20150047697 | TRANSPARENT CONDUCTIVE COATINGS FOR USE IN HIGHLY FLEXIBLE ORGANIC PHOTOVOLTAIC FILMS ON THIN FLEXIBLE SUBSTRATES WITH PRESSURE-SENSITIVE ADHESIVES - Flexible transparent conductive films, flexible OPV devices, and semitransparent flexible OPV devices, and methods for the fabrication of flexible transparent conductive films, and the use of those films in fabricating flexible OPV devices, and semitransparent flexible OPV devices are presented. High-throughput and low-cost fabrication options also allow for economical production. | 02-19-2015 |
20150047693 | COATINGS FOR AIRCRAFT WINDOW SURFACES TO PRODUCE ELECTRICITY FOR MISSION-CRITICAL SYSTEMS AND MAINTENANCE LOAD ON COMMERCIAL AIRCRAFT - An electricity-generating coating for commercial aircraft window surfaces and methods for fabricating organic photovoltaic-based electricity-generating aircraft fuselage surfaces are provided. The coating includes a conformal organic photovoltaic device having one or more cells connected in series and/or parallel, adhered to an aircraft window surface, along with wires and power electronics such that the coating provides electricity for mission-critical systems and/or maintenance loads on-board the aircraft. | 02-19-2015 |
20150047692 | COATINGS FOR AIRCRAFT WINDOW SURFACES TO PRODUCE ELECTRICITY FOR MISSION-CRITICAL SYSTEMS ON MILITARY AIRCRAFT - A variety of methods for fabricating organic photovoltaic-based electricity-generating military aircraft windows are described. In particular, a method for fabricating curved electricity-generating military aircraft windows utilizing lamination of highly flexible organic photovoltaic films is described. High-throughput and low-cost fabrication options also allow for economical production. | 02-19-2015 |
20150047687 | PREPARATION AND COATING OF THREE-DIMENSIONAL OBJECTS WITH ORGANIC OPTOELECTRONIC DEVICES INCLUDING ELECTRICITY-GENERATING ORGANIC PHOTOVOLTAIC FILMS USING THIN FLEXIBLE SUBSTRATES WITH PRESSURE-SENSITIVE ADHESIVES - A general method for the fabrication of three-dimensional objects of arbitrary shapes coated in organic optoelectronic devices, including semitransparent objects and optoelectronic devices, is described. In particular, a method for fabricating curved objects coated in organic photovoltaic, and especially semitransparent photovoltaic, devices is presented. High-throughput and low-cost fabrication options also allow for economical production. | 02-19-2015 |
20150047085 | PREPARATION AND COATING OF PILOT EQUIPMENT WITH ORGANIC PHOTOVOLTAIC FILMS TO PRODUCE ELECTRICITY FOR EMERGENCY POWER SUPPLY SYSTEMS FOR PILOTS - A method for fabricating organic photovoltaic-based electricity-generating military pilot equipment, including flight suits, helmets, helmet visors, and related equipment is described. In particular, a method for fabricating such equipment utilizing lamination of highly flexible organic photovoltaic films is described. High-throughput and low-cost fabrication options also allow for economical production. | 02-19-2015 |
20140330538 | BUILDING INTEGRATED PHOTOVOLTAIC DEVICES AS SMART SENSORS FOR INTELLIGENT BUILDING ENERGY MANAGEMENT SYSTEMS - Building-integrated photovoltaic devices can be provided, which function as sensors, wherein the output parameters from the device are used to provide information about light intensity and ambient temperature, in addition to providing power, to an intelligent building energy management system. | 11-06-2014 |