Cola
Baratunde Cola, Atlanta, GA US
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20150311461 | MULTILAYER COATINGS FORMED ON ALIGNED ARRAYS OF CARBON NANOTUBES - Arrays containing carbon nanostructure-oxide-metal diodes, such as carbon nanotube (CNT)-oxide-metal diodes and methods of making and using thereof are described herein. In some embodiments, the arrays contain vertically aligned carbon nanostructures, such as multiwall carbon nanotubes (MWCNTs) coated with a conformal coating of a dielectric layer, such as a metal oxide. The tips of the carbon nano-structures are coated with a low work function metal, such as a calcium or aluminum to form a nanostructure-oxide-metal interface at the tips. The arrays can be used as rectenna at frequencies up to about 40 petahertz because of their intrinsically low capacitance. The arrays described herein produce high asymmetry and non-linearity at low turn on voltages down to 0.3 V and large current densities up to about 7,800 mA/cm2 and a rectification ratio of at least about 10, 15, 20, 25, 30, 35, 40, 45, 50, 55, or 60. | 10-29-2015 |
Baratunde A. Cola, Atlanta, GA US
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20100200208 | METHODS FOR ATTACHING CARBON NANOTUBES TO A CARBON SUBSTRATE - Vertically oriented carbon nanotubes (CNT) arrays have been simultaneously synthesized at relatively low growth temperatures (i.e., <700° C.) on both sides of aluminum foil via plasma enhanced chemical vapor deposition. The resulting CNT arrays were highly dense, and the average CNT diameter in the arrays was approximately 10 nm, A CNT TIM that consist of CNT arrays directly and simultaneously synthesized on both sides of various types of foil has been fabricated. The TIM is insertable and allows temperature sensitive and/or rough substrates to be interfaced by highly conductive and conformable CNT arrays. The use of foil, including substrates fabricated from carbon (CNT woven arrays, exfoliated graphite sheets, bucky paper, and the like) is disclosed. | 08-12-2010 |
20120276327 | ELECTROTHERMAL INTERFACE MATERIAL ENHANCER - Vertically oriented carbon nanotubes (CNT) arrays have been simultaneously synthesized at relatively low growth temperatures (i.e., <700° C.) on both sides of aluminum foil via plasma enhanced chemical vapor deposition. The resulting CNT arrays were highly dense, and the average CNT diameter in the arrays was approximately 10 nm, A CNT TIM that consist of CNT arrays directly and simultaneously synthesized on both sides of aluminum foil has been fabricated. The TIM is insertable and allows temperature sensitive and/or rough substrates to be interfaced by highly conductive and conformable CNT arrays. The use of metallic foil is economical and may prove favorable in manufacturing due to its wide use. | 11-01-2012 |
20120285673 | NANOSTRUCTURED COMPOSITE POLYMER THERMAL/ELECTRICAL INTERFACE MATERIAL AND METHOD FOR MAKING THE SAME - An exemplary embodiment of the present invention provides a thermal interface material for providing thermal communication between a heat sink and a heat source. The thermal interface material comprises a plurality of polymer nanofibers having first ends and second ends. The first ends can be positioned substantially adjacent to the heat source. The second ends can be positioned substantially adjacent to the heat sink. The plurality of polymer nanofibers can be aligned substantially perpendicular to at least a portion of the heat source and the heat sink. | 11-15-2012 |
20130295288 | PALLADIUM THIOLATE BONDING OF CARBON NANOTUBES - Carbon nanotube (CNT) arrays are attractive thermal interface materials with high compliance and conductance that can remain effective over a wide temperature range. Disclosed herein are CNT interface structures in which free CNT ends are bonded using palladium hexadecanethiolate Pd(SC | 11-07-2013 |
20140015158 | VERTICALLY ALIGNED ARRAYS OF CARBON NANOTUBES FORMED ON MULTILAYER SUBSTRATES - Multilayer substrates for the growth and/or support of CNT arrays are provided. These multilayer substrates both promote the growth of dense vertically aligned CNT arrays and provide excellent adhesion between the CNTs and metal surfaces. Carbon nanotube arrays formed using multilayer substrates, which exhibit high thermal conductivity and excellent durability, are also provided. These arrays can be used as thermal interface materials. | 01-16-2014 |
20150209761 | Vertically Aligned Arrays of Carbon Nanotubes Formed on Multilayer Substrates - Multilayer substrates for the growth and/or support of CNT arrays are provided. These multilayer substrates both promote the growth of dense vertically aligned CNT arrays and provide excellent adhesion between the CNTs and metal surfaces. Carbon nanotube arrays formed using multilayer substrates, which exhibit high thermal conductivity and excellent durability, are also provided. These arrays can be used as thermal interface materials. | 07-30-2015 |
Baratunde A. Cola, West Lafayette, IN US
Patent application number | Description | Published |
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20080236804 | ELECTROTHERMAL INTERFACE MATERIAL ENHANCER - Vertically oriented carbon nanotubes (CNT) arrays have been simultaneously synthesized at relatively low growth temperatures (i.e., <700° C.) on both sides of aluminum foil via plasma enhanced chemical vapor deposition. The resulting CNT arrays were highly dense, and the average CNT diameter in the arrays was approximately 10 nm, A CNT TIM that consist of CNT arrays directly and simultaneously synthesized on both sides of aluminum foil has been fabricated. The TIM is insertable and allows temperature sensitive and/or rough substrates to be interfaced by highly conductive and conformable CNT arrays. The use of metallic foil is economical and may prove favorable in manufacturing due to its wide use. | 10-02-2008 |
Gian Luigi Cola, Venezia IT
Patent application number | Description | Published |
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20120193244 | GAS CYLINDER - A gas cylinder ( | 08-02-2012 |
20120241461 | GAS CYLINDER - A gas cylinder ( | 09-27-2012 |
20130043301 | METHOD AND SYSTEM FOR GENERATING TRACING INFORMATION FOR GAS CYLINDERS - Methods for generating tracing information for gas cylinders are provided comprising a metal cylinder body manufactured from an unrefined metal piece, wherein such a method comprises the steps of equipping the metal piece with an individual marking, identifying, during at least one transformation or control step of the piece, an identification code of the piece by reading the individual marking and associating one or more process parameters of the transformation step or control results with the identification code, and storing the process parameters and the association with the identification code in a database. Systems for generating tracing information for gas cylinders are also provided. | 02-21-2013 |
20140138433 | METHODS AND SYSTEMS FOR GENERATING TRACING INFORMATION FOR GAS CYLINDERS - Methods for generating tracing information for gas cylinders are provided comprising a metal cylinder body manufactured from an unrefined metal piece, wherein such a method comprises the steps of equipping the metal piece with an individual marking, identifying, during at least one transformation or control step of the piece, an identification code of the piece by reading the individual marking and associating one or more process parameters of the transformation step or control results with the identification code, and storing the process parameters and the association with the identification code in a database. Systems for generating tracing information for gas cylinders are also provided. | 05-22-2014 |
Mark J. Cola, Santa Fe, NM US
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20100229751 | Structurally Sound Reactive Materials - The present inventions provide methods of manufacturing methods for case metallic materials for munitions that have high enthalpic energy release and controlled fragmentation and breakup enabling fragment speeds up to twice what is otherwise possible in explosively driven metal systems, and munitions made by such methods. Embodiments of the invention involve the thixotropic processing of energetic materials such as aluminum together with high density materials such as tantalum or tungsten to achieve material microstructures with a bulk density equivalent to steel, but with the energy release potential of materials such as finely dispersed aluminum powders. Such methods of mixing and blending of high energy and high density materials can provide a microstructure that has large density and shock impedance differences over length scales of 10-100 microns, resulting in enhanced materials fragmentation in the shock or brisant loading regime, incipient melting at the lower melting point constituents, and additional enhancement of fragmentation in the gas-dynamic expansion phase of munitions breakup. Additionally, the present inventions provide a range of surface and near-surface processing methods to enhance spall and ejecta from conventional munitions systems, enhancing munition breakup and reactivity as well. | 09-16-2010 |
20100288734 | CONTROLLED WELD POOL VOLUME CONTROL OF WELDING PROCESSES - A new method of process control for fusion welding maintains a controlled weld pool size or volume, for example in some applications a substantially constant weld pool size or volume. The invention comprises a method of linking machine and process variables to the weld pool size or volume in real time, thereby enabling constant weld pool volume control. The invention further comprises a method of using thermal inverse models to rapidly process real-time data and enable models-based control of welding processes so as to implement constant weld pool volume control. | 11-18-2010 |
20130126483 | CONTROLLED WELD POOL VOLUME CONTROL OF WELDING PROCESSES - A new method of process control for fusion welding maintains a controlled weld pool size or volume, for example in some applications a substantially constant weld pool size or volume. The invention comprises a method of linking machine and process variables to the weld pool size or volume in real time, thereby enabling constant weld pool volume control. The invention further comprises a method of using thermal inverse models to rapidly process real-time data and enable models-based control of welding processes so as to implement constant weld pool volume control. | 05-23-2013 |