Patent application number | Description | Published |
20080206555 | Metallic nanostructures - One embodiment includes forming a nanowire on a substrate from an organometallic vapor. The nanowire is grown during this formation in a direction away from the substrate and is freestanding during growth. The nanowire has a first dimension of 500 nanometers or less and a second dimension extending from the substrate to a free end of the nanowire at least 10 times greater than the first dimension. In one form, the organometallic vapor includes copper, silver, or gold. Alternatively or additionally, the nanowire is of a monocrystalline structure. | 08-28-2008 |
20080268151 | Organometallic compounds and their use as precursors for forming films and powders of metal or metal derivatives - Disclosed are organometallic compounds derived from Groups VIIb, VIII, IX, and X metals useful as precursors for the formation of metal containing powders and for the chemical deposition of the metals on substrates, particularly for the chemical vapor deposition of metal films suitable for the manufacture of electronic devices. Methods for their use are also disclosed. The preferred organometallic compounds of the present invention are of the formula (R | 10-30-2008 |
20090230222 | APPARATUSES AND METHODS FOR APPLYING ONE OR MORE MATERIALS ON ONE OR MORE SUBSTRATES - A system that incorporates teachings of the present disclosure may include, for example, an apparatus having a tube with an ingress opening to receive a liquid, and an egress opening to release the liquid, a conductor positioned in a conduit of the tube, the conductor and the conduit having dimensions to cause a surface tension of the liquid to prevent a constant flow of the liquid from the egress opening, and a power supply coupled to the conductor to apply a charge to the liquid to overcome the surface tension and form at the egress opening a single jet stream of the liquid applicable on a substrate to create a pattern. The single jet stream can be controllable in part by a viscosity of the liquid. Additional embodiments are disclosed. | 09-17-2009 |
20090258153 | APPARATUS AND METHOD FOR APPLYING A FILM ON A SUBSTRATE - A system that incorporates teachings of the present disclosure may include, for example, an apparatus having a plurality of applicators, each applicator with an ingress opening to receive a liquid, and an egress opening to release the liquid, and a conductor positioned in a conduit of each of the plurality of applicators, the conductor and the conduit having dimensions to cause a surface tension of the liquid to prevent a constant flow of the liquid from the egress opening. Each conductor of the plurality of applicators can be coupled to one of one or more power sources operable to apply a charge to the liquid to overcome the surface tension and form at the egress opening of each applicator a plurality of jet sprays of the liquid applicable on a substrate to form a thin film. Additional embodiments are disclosed. | 10-15-2009 |
20090304788 | ENCAPSULATED MATERIALS AND METHODS FOR ENCAPSULATING MATERIALS - A system that incorporates teachings of the present disclosure may include, for example, an apparatus having an outer nozzle operable to discharge an outer stream of a shell solution, and an inner nozzle operable to discharge an inner stream of a core solution intermixed with a plurality of materials. The outer stream can substantially surrounds the inner stream, thereby forming a combined stream. A plurality of capsules can be formed responsive to a force applied to the combined stream. At least a portion of the plurality of capsules are desirable capsules, each having a core encapsulated by a portion of the shell solution. The core can have at least one of the plurality of materials encapsulated by a portion of the core solution without protruding an outer surface of the portion of the shell solution. Additional embodiments are disclosed. | 12-10-2009 |
20100291408 | Nanostructures including a metal - One embodiment includes non-catalyticly forming a nanowire on a substrate from an organometallic vapor without application of any type of reduction agent. The nanowire is grown during this formation in a direction away from the substrate and is freestanding during growth. The nanowire has a first dimension of 500 nanometers or less and a second dimension extending from the substrate to a free end of the nanowire at least 10 times greater than the first dimension. In one form, the organometallic vapor includes copper and the nanowire essentially consists of elemental copper, a copper alloy, or oxide of copper. Alternatively or additionally, the nanowire is of a monocrystalline structure. | 11-18-2010 |
20100301730 | HIGH INTENSITY DISCHARGE ARC LAMP USING UV-ABSORBANT COATING - A high intensity discharge arc lamp comprises an arc tube, a metal halide in the arc tube, and a coating on the arc tube. The coating comprises a UV absorbent material. | 12-02-2010 |
20110311731 | APPARATUS AND METHOD FOR APPLYING A FILM ON A SUBSTRATE - A system that incorporates teachings of the present disclosure may include, for example, an apparatus having a plurality of applicators, each applicator with an ingress opening to receive a liquid, and an egress opening to release the liquid, and a conductor positioned in a conduit of each of the plurality of applicators, the conductor and the conduit having dimensions to cause a surface tension of the liquid to prevent a constant flow of the liquid from the egress opening. Each conductor of the plurality of applicators can be coupled to one of one or more power sources operable to apply a charge to the liquid to overcome the surface tension and form at the egress opening of each applicator a plurality of jet sprays of the liquid applicable on a substrate to form a thin film. Additional embodiments are disclosed. | 12-22-2011 |
20130049240 | ENCAPSULATED MATERIALS AND METHODS FOR ENCAPSULATING MATERIALS - A system that incorporates teachings of the present disclosure may include, for example, a method for applying a force to at least one of an inner stream, an outer stream or both of a combined stream to produce a plurality of capsules, receiving image data, processing the image data, detecting undesirable capsules from the processed image data, applying a bias charge only to the detected undesirable capsules, and segregating the biased undesirable capsules from the unbiased desirable capsules. Additional embodiments are disclosed. | 02-28-2013 |