| Patent application number | Description | Published |
|---|
| 20090123789 | METHODS OF GAS CONFINEMENT WITHIN THE VOIDS OF CRYSTALLINE MATERIAL AND ARTICLES THEREOF - There is disclosed articles for and methods of confining volatile materials in the void volume defined by crystalline void materials. In one embodiment, the hydrogen isotopes are confined inside carbon nanotubes for storage and the production of energy. There is also disclosed a method of generating various reactions by confining the volatile materials inside the crystalline void structure and releasing the confined volatile material. In this embodiment, the released volatile material may be combined with a different material to initiate or sustain a chemical, thermal, nuclear, electrical, mechanical, or biological reaction. | 05-14-2009 |
| 20090147906 | METHODS OF GENERATING ENERGETIC PARTICLES USING NANOTUBES AND ARTICLES THEREOF - There is disclosed a method of generating energetic particles, which comprises contacting nanotubes with a source of hydrogen isotopes, such as D | 06-11-2009 |
| 20090196909 | CARBON NANOTUBE CONTAINING MATERIAL FOR THE CAPTURE AND REMOVAL OF CONTAMINANTS FROM A SURFACE - There is disclosed an article and method of making an article for removing at least one contaminant from a solid surface. In one embodiment, the article comprises carbon nanotubes attached to a support media, such as a nonwoven mixture of PET and cotton. There is also disclosed a method of removing at least one contaminant from a solid surface, such as areas where microbial, particle, or static contamination is undesirable, including hospitals, clean rooms, kitchens, baths, or human hands. | 08-06-2009 |
| 20090282802 | CARBON NANOTUBE YARN, THREAD, ROPE, FABRIC AND COMPOSITE AND METHODS OF MAKING THE SAME - There is disclosed a material comprising an assembly of at least one spun yarn substantially comprising carbon nanotubes, a majority of which are longer than one millimeter, such as longer than one centimeter, chemically interlinked one to another, and arranged in the morphology of spiral configurations. The disclosed materials may take the form of a yarn, thread, rope, or fabric. There are also disclosed composite materials constructed from the disclosed materials. | 11-19-2009 |
| 20100044584 | CARBON NANOTUBE CONTAINING MATERIALS AND ARTICLES CONTAINING SUCH MATERIALS FOR ALTERING ELECTROMAGNETIC RADIATION - Disclosed herein is a material for altering electromagnetic radiation incident on the material. The material disclosed herein comprises carbon nanotubes having a length (L) that meets the following formula (1): | 02-25-2010 |
| 20100098877 | Large scale manufacturing of nanostructured material - The present disclosure relates to methods for producing large scale nanostructured material comprising carbon nanotubes. Therefore, there is disclosed a method for making nanostructured materials comprising depositing carbon nanotubes onto at least one substrate via a deposition station, wherein depositing comprises transporting molecules to the substrate from a deposition fluid, such as liquid or gas. By using a substrate that is permeable to the carrier fluid, and allowing the carrier fluid to flow through the substrate by differential pressure filtration, a nanostructured material can be formed on the substrate, which may be removed, or may act as a part of the final component. | 04-22-2010 |
| 20100116751 | CARBON NANOTUBE MATERIAL AND METHOD FOR THE SEPARATION OF LIQUIDS - There is disclosed a material for separating a liquid from a mixture of at least two liquids, for example, for separating water from fuel. In one embodiment, the material comprises a fibrous substrate and carbon nanotubes, both of which have at least one functional group attached thereto. There is also disclosed a method for separating one liquid from another liquid using the disclosed material. In one embodiment, the method comprises flowing a mixture of liquids through the disclosed material, and either coalescing or separating at least one liquid by use of the carbon nanotubes. | 05-13-2010 |
| 20100282668 | FUSED NANOSTRUCTURE MATERIAL - Disclosed herein is a nanostructured material comprising carbon nanotubes fused together to form a three-dimensional structure. Methods of making the nanostructured material are also disclosed. Such methods include a batch type process, as well as multi-step recycling methods or continuous single-step methods. A wide range of articles made from the nanostructured material, including fabrics, ballistic mitigation materials, structural supports, mechanical actuators, heat sink, thermal conductor, and membranes for fluid purification is also disclosed. | 11-11-2010 |
