| Patent application number | Description | Published |
|---|
| 20080212261 | Energy storage devices and composite articles associated with the same - Embodiments of the invention relate to energy storage devices, e.g., capacitors and batteries, that may include a composite article of elongated conductive structures embedded in a polymer matrix. In some embodiments, a liquid containing ionic species may be dispersed within the polymer matrix of the article. The liquid may contact the elongated conductive structures within the polymer matrix. When the composite article is used as an energy storage device, the large surface area at the interface between the elongated conductive structures and the liquid can provide high energy storage. Embodiments of the invention enable storing energy using a composite article that exhibits both high and low temperature stability, high cyclic repeatability, and mechanical flexibility. The composite article can also be non-toxic, biocompatible and environmentally friendly. Thus, the composite article may be useful for a variety of energy storage applications, such as in the automotive, RFID, MEMS and medical fields. | 09-04-2008 |
| 20080280137 | ALIGNED CARBON NANOTUBE-POLYMER MATERIALS, SYSTEMS AND METHODS - The invention is directed to carbon nanostructure composite systems which may be useful for various applications, including as dry adhesives, electronics and display technologies, or in a wide variety of other areas where organized nanostructures may be formed and integrated into a flexible substrate. The present invention provides systems and methods wherein organized nanotube structures or other nanostructures are embedded within polymers or other flexible materials to provide a flexible skin-like material, with the properties and characteristics of the nanotubes or other nanostructures exploited for use in various applications. In one aspect, the invention is directed to a carbon nanotube/polymer composite material having a plurality of carbon nanotubes formed into a predetermined architecture, with each of the plurality of nanotubes having a desired width and length. The architecture of the plurality of nanotubes defines at least one orientation for a plurality of nanotubes, and also defines the approximate spacing between nanotubes and/or groups of nanotubes. The carbon nanotube architecture is at least partially embedded with a polymer matrix in a manner that the architecture is stabilized in the predetermined architecture. The polymer matrix may also be formed to have a desired predetermined thickness. | 11-13-2008 |
| 20090126783 | USE OF VERTICAL ALIGNED CARBON NANOTUBE AS A SUPER DARK ABSORBER FOR PV, TPV, RADAR AND INFRARED ABSORBER APPLICATION - An optical absorber includes vertically aligned carbon nanotubes with an ultra-low reflectance less than 0.16% and an absorption efficiency greater than 99.84%. The index of refraction and the absorption constant are controlled by independently varying the nanotube diameter and nanotube spacing. The nanotubes are mostly double-walled. The density of the nanotube arrays is very low, around 0.015 g/cm | 05-21-2009 |
| 20100075024 | Aligned Carbon Nanotube-Polymer Materials, Systems and Methods - The invention is directed to carbon nanostructure composite systems which may be useful for various applications, including as dry adhesives, electronics and display technologies, or in a wide variety of other areas where organized nanostructures may be formed and integrated into a flexible substrate. The present invention provides systems and methods wherein organized nanotube structures or other nanostructures are embedded within polymers or other flexible materials to provide a flexible skin-like material, with the properties and characteristics of the nanotubes or other nanostructures exploited for use in various applications. In one aspect, the invention is directed to a carbon nanotube/polymer composite material having a plurality of carbon nanotubes formed into a predetermined architecture, with each of the plurality of nanotubes having a desired width and length. The architecture of the plurality of nanotubes defines at least one orientation for a plurality of nanotubes, and also defines the approximate spacing between nanotubes and/or groups of nanotubes. The carbon nanotube architecture is at least partially embedded with a polymer matrix in a manner that the architecture is stabilized in the predetermined architecture. The polymer matrix may also be formed to have a desired predetermined thickness. | 03-25-2010 |
| 20100075130 | Controlled fabrication of hierarchically branched nanopores, nanotubes, and nanowires - A branched nanostructure, includes at least one of (a) a stem and at least two levels of branches; or (b) a stem connected to three of more branches; or (c) a nanowire nanostructure comprising a stem and two or more branches; or (d) a stem connected to two or more branches, where the stem and the branches comprise a different material composition or structure. | 03-25-2010 |
| 20100215724 | Microcapsule Nanotube Devices for Targeted Delivery of Therapeutic Molecules - A nanotube device comprises a gel matrix that includes microcapsules and functionalized nanotubes, or other functionalized nanostructures incorporated into said gel matrix. Pharmaceutical compositions and methods of treatment comprising same. The pharmaceutical compositions of the present invention enable the specific and targeted delivery of therapeutic agents such as DNA molecules, peptides, including antibodies, drug molecules (e.g. small organic molecules), while offering sufficient resistance towards mucus layer of the intestine and high concentrations of enzymes and other molecules found in the blood stream and the GI tract. | 08-26-2010 |
