Mastropietro
Brian J. Mastropietro, Springfield, VA US
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20150295948 | METHOD AND DEVICE FOR SIMULATING NETWORK RESILIANCE AGAINST ATTACKS - Embodiments of a system and method for a cyber modeling and simulation framework arc generally described herein. In some embodiments, an interface ( | 10-15-2015 |
Michael Mastropietro, Bridgewater, NJ US
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20100015462 | METALLIC NANOPARTICLE SHIELDING STRUCTURE AND METHODS THEREOF - A metallic nanoparticle shielding structure derived from a substrate having metallic nanoparticles deposited thereon in either a pattern or a coating. The pattern can comprise one or more marks that have a width of 20 to 40 micrometers and that can overlap one another. The metallic nanoparticles can be heated at a temperature less than 110 degrees Celsius for a period of time less than 90 seconds. In some embodiments, the metallic nanoparticle shielding structure can be applied to liquid crystal displays, polyester substrates, polycarbonate substrates, or any other suitable substrate. | 01-21-2010 |
20100245814 | METHODS FOR FABRICATING ANALYTICAL SUBSTRATES USING METALLIC NANOPARTICLES - An analytical substrate for amplifying Raman signals by a factor greater than 10,000, or by a factor less than 1,000,000. The analytical substrate is fabricated by depositing a film on the substrate and heating the substrate to a temperature less than 100 degrees Celsius for a period of time less than 30 seconds. The film can comprise a metallic nanoparticle dispersion that can further comprise a population of metallic nanoparticles. In some instances, the metallic nanoparticles have an average cross-sectional dimension in a range of about 1 nm to about 100 nm. In other instances each nanoparticle comprises at least one ligand bound to a surface of the nanoparticle, where the ligand comprises a heteroatom head group bound to the nanoparticle surface and a tail bound to the heteroatom head group. | 09-30-2010 |
Michael A. Mastropietro, Bridgewater, NJ US
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20080213609 | SHIELDING BASED ON METALLIC NANOPARTICLE COMPOSITIONS AND DEVICES AND METHODS THEREOF - Disclosed are cohesive metallic structures, comprising sintered metallic nanoparticles, suitable for shielding against electromagnetic interference and radio frequency interference. Also disclosed are methods for forming such structures. Devices for shielding electromagnetic radiation and methods of shielding electromagnetic radiation using such devices are also provided. | 09-04-2008 |
20110236709 | LOW-TEMPERATURE SINTERABLE METAL NANOPARTICLE COMPOSITION AND ELECTRONIC ARTICLE FORMED USING THE COMPOSITION - [Object] A composition of a metal nanoparticle is provided in which reproducibility in a method of producing a metal film with excellent low-temperature sinterable properties is improved. An article using the metal nanoparticle composition is also provided. | 09-29-2011 |
20120177897 | LOW-TEMPERATURE SINTERED SILVER NANOPARTICLE COMPOSITION AND ELECTRONIC ARTICLES FORMED USING THE SAME - A silver nanoparticle composition is provided which is possible to be sintered through sintering at a low temperature in a short time and to form silver electro conductive film and wiring which is favorable for adhesion to a substrate and low in resistance, and articles using the same are provided. The silver nanoparticle composition is provided, wherein a main component of a solvent is water, a pH of the composition is within a range of 5.3 to 8.0, a silver nanoparticle included in the composition is protected by an organic acid or a derivative thereof, and the content of the organic acid or the derivative thereof with respect to silver is 2 to 20% by mass. | 07-12-2012 |
20140120359 | LOW-TEMPERATURE SINTERABLE METAL NANOPARTICLE COMPOSITION AND ELECTRONIC ARTICLE FORMED USING THE COMPOSITION - [OBJECT] A composition of a metal nanoparticle is provided in which reproducibility in a method of producing a metal film with excellent low-temperature sinterable properties is improved. An article using the metal nanoparticle composition is also provided. | 05-01-2014 |
20140272118 | METHOD FOR PRODUCING SILVER CONDUCTIVE FILM - A silver conductive film is formed on a substrate in a continuous roll-to-roll system by applying a fine silver particle dispersing solution, which contains 30 to 70 wt % of fine silver particles dispersed in a water based dispersing medium, to the substrate via a halide, such as a chlorine compound, which is applied to the substrate, by flexographic printing, and thereafter, heating the substrate at 60 to 200° C. for 0.1 to 5 seconds in an infrared (IR) heating open, which is installed on the printing path, to carry out calcination. | 09-18-2014 |
Michael W. Mastropietro, Sandburg, IL US
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20120077564 | WAGERING GAME WITH MULTIPLE OVERLYING REEL STRIPS FOR TRIGGERING EVENTS OR OUTCOMES - A method for enabling a portal game on a wagering game device includes the acts of using a processor operatively associated with the wagering game device to conducting a wagering game on the wagering game device in accord with a first math model and using a portal game controller, which may be the processor operatively associated with the wagering game device or a separate controller, operatively associated with both the portal game and the wagering game device, to overlay a portal game over the wagering game. The portal game includes a second math model that is mathematically independent from the first math model of the wagering game. | 03-29-2012 |
Ron P. Mastropietro, Highland, MI US
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20110222704 | AUDIO BROADCAST PROCESSING METHOD - An audio broadcast processing method includes a plurality of steps. One step involves processing an audio broadcast having at least one occurrence of signal degradation that adversely affects audio quality of a corresponding segment of the audio performance. Another step involves modifying the segment of the audio performance with a plurality of differing signal degradation compensation factors to selectively compensate for the at least one occurrence of signal degradation to produce a plurality of compensated audio performances. Another step involves evaluating the compensated audio performances. Still another step involves determining at least one preferred signal degradation compensation factor based on data from the evaluating of the compensated audio performances. Yet another step includes configuring an audio device with the at least one preferred processing factor. | 09-15-2011 |
20110222705 | AUDIO BROADCAST COLLECTING METHOD - An audio broadcast collecting method includes a plurality of steps. In one step, an audio broadcast collecting system simultaneously receives a single audio broadcast in a plurality of audio systems. In another step, the audio broadcast collecting system outputs from each of the plurality of audio systems separate audio performances corresponding to the single audio broadcast. In yet another step, the audio broadcast collecting system records an audio sample of the separate audio performances outputted by the plurality of audio systems simultaneously to obtain recorded samples from the plurality of audio systems. | 09-15-2011 |