Abstract: A system and method for quieting unwanted sound. As a non-limiting example, various aspects of this disclosure provide a system and method, for example implemented in a premises-based or home audio system, for quieting unwanted sound at a particular location.

Abstract: A thermal interface material (TIM) and method for manufacture is disclosed. A vertically aligned carbon nanotube (VACNT) array is formed on a substrate, then individual CNTs are cleaved to form a vertical nanoribbon array (VERNA). An array of aligned, upright, flat, highly-compliant ribbon elements permit a higher packing density, better ribbon-to-ribbon engagement factor, better contact with adjoining surfaces and potentially achievement of theoretical thermal conductance limit (˜1 GW/m2K) for such nanostructured polycyclic carbon materials. Methods for forming the VERNA include either or both of electrochemical and gas phase processing steps.

Abstract: A thermal interface material (TIM) and method for manufacture is disclosed. A vertically aligned carbon nanotube (VACNT) array is formed on a substrate, then individual CNTs are cleaved to form a vertical nanoribbon array (VERNA). An array of aligned, upright, flat, highly-compliant ribbon elements permit a higher packing density, better ribbon-to-ribbon engagement factor, better contact with adjoining surfaces and potentially achievement of theoretical thermal conductance limit (˜1 GW/m2K) for such nanostructured polycyclic carbon materials. Methods for forming the VERNA include either or both of electrochemical and gas phase processing steps.

Abstract: Nano-carbon material is described that combines the common and unique properties of spherical fullerenes, carbon nanotubes and graphene carbon allotropes to create an architecture that has unique mechanical and electrical properties. The combined tensile strength of graphene with the compressive strength of fullerenes attached to nanotubes creates a high strength material. By attaching fullerenes to nanotubes, the surface area of the material is greatly enhanced beyond the high surface area normally associated with vertically aligned nanotube arrays. Fabrication can be performed via several complementary methods including catalyst deposition, hydrocarbon chemical vapor deposition, and surface functionalization. The fabrication of the NTC is based on its sub-composites: graphene-nanotubes and nanotubes-fullerenes and their respective fabrication processes.

Abstract: A method of increasing the area of carbon nanotubes used in fabricating capacitors is described. The method involves reacting carbon nanotubes with electrically conductive ions, molecules or nanoparticles that increase the surface area of the nanotubes. The capacitance and the energy stored in the capacitor can be increased by such treatment. Devices constructed from such treated materials and their properties are described.

Abstract: Transdermal drug delivery patch devices are described in which microneedle array insertion or application forces are decoupled or separated from drug delivery actuation or application forces. Dual-reservoir devices are described in detail for such purposes as are associated methods of use in various examples.

Abstract: A method of increasing the area of carbon nanotubes used in fabricating capacitors is described. The method involves reacting carbon nanotubes with electrically conductive ions, molecules or nanoparticles that increase the surface area of the nanotubes. The capacitance and the energy stored in the capacitor can be increased by such treatment. Devices constructed from such treated materials and their properties are described.

Abstract: Composite CNT microneedle fabrication and finally-constructed delivery device embodiments are described. The microneedles can provide a self-administered, painless alternative to standard hypodermic injection.

Abstract: Carbon nanotube needles and needle arrays are described in which the precursor pillars are etched by oxygen plasma treatment to provide tapered and/or sharp-tip needles. Processes, products by process, and devices incorporating the sharp-tip needles are further described.

Abstract: Nano-carbon material is described that combines the common and unique properties of spherical fullerenes, carbon nanotubes and graphene carbon allotropes to create an architecture that has unique mechanical and electrical properties. The combined tensile strength of graphene with the compressive strength of fullerenes attached to nanotubes creates a high strength material. By attaching fullerenes to nanotubes, the surface area of the material is greatly enhanced beyond the high surface area normally associated with vertically aligned nanotube arrays. Fabrication can be performed via several complementary methods including catalyst deposition, hydrocarbon chemical vapor deposition, and surface functionalization. The fabrication of the NTC is based on its sub-composites: graphene-nanotubes and nanotubes-fullerenes and their respective fabrication processes.

Abstract: A method of increasing the area of carbon nanotubes used in fabricating capacitors is described. The method involves reacting carbon nanotubes with electrically conductive ions, molecules or nanoparticles that increase the surface area of the nanotubes. The capacitance and the energy stored in the capacitor can be increased by such treatment. Devices constructed from such treated materials and their properties are described.

Abstract: Methods and articles of manufacture for providing an indication or representation that describes the state of weather over a period in the past for a particular location. Observation data for the location is accumulated and stored over the period. Because forecast engines exist and can be adapted for use in determining the indication of weather, the observation data is converted into a format of forecast data. The data is then grouped into subsets and processed as forecast data. For each subset, a representation of weather is determined. The representations of weather for each subset are then processed to determine the representation of weather for the period of time.

Abstract: Knitted clean-room wipers are formed in long strips with sealed borders along both side edges. The strips are fed longitudinally through a very vigorous washing process which places substantial strain on the material. After washing, the strip is cut into individual wipers whose cut edges are sealed to form individual clean-room wipers. The stretch of the wiper material in the longitudinal direction is substantially reduced so as to substantially increase the yield of acceptable wipers from the manufacturing process.