Abstract: Semiconductor substrates with unitary vias and via terminals, and associated systems and methods are disclosed. A representative method in accordance with a particular embodiment includes forming a blind via in a semiconductor substrate, applying a protective layer to a sidewall surface of the via, and forming a terminal opening by selectively removing substrate material from an end surface of the via, while protecting from removal substrate material against which the protective coating is applied. The method can further include disposing a conductive material in both the via and the terminal opening to form an electrically conductive terminal that is unitary with conductive material in the via. Substrate material adjacent to the terminal can then be removed to expose the terminal, which can then be connected to a conductive structure external to the substrate.

Abstract: A thin printed flexible electrochemical cell, and its method of manufacture, using a “picture frame” structure sealed, for example, with a high moisture and oxygen barrier polymer film and featuring, for example, a printed cathode deposited on an optional, highly conductive carbon printed cathode collector with a printed or a foil strip anode placed adjacent to the cathode. A viscous or gelled electrolyte is dispensed and/or printed in the cell, and a top laminate can then be sealed onto the picture frame. Such a construction could allow the entire cell to be made on a printing press, for example, as well as gives the opportunity to integrate the battery directly with an electronic application, for example.

Abstract: Methods of etching into silicon oxide-containing material with an etching ambient having at least 75 volume percent helium. The etching ambient may also include carbon monoxide, O2 and one or more fluorocarbons. The openings formed in the silicon oxide-containing material may be utilized for fabrication of container capacitors, and such capacitors may be incorporated into DRAM.

Abstract: The present invention provides pharmaceutical compositions for buccal delivery of human growth hormone (hGH) comprising a delivery agent and hGH. The compositions of the present invention provide improved delivery of hGH compared to comparable oral compositions, resulting in increased serum concentrations of hGH. The present invention further provides for methods of stimulating tissue growth in an animal by buccally co-administering hGH and a delivery agent.

Abstract: A spring actuated clamping mechanism has a backer plate with an upper surface and a lower surface. A set of apertures is formed along the periphery of the backer plate. The upper surface of the backer plate has at least one backer plate recess, and preferably four recesses, formed therein. A threaded aperture is also formed in the backer plate. A compression plate is also provided. A second set of apertures is formed along the periphery of the compression plate. The lower surface of the compression plate has at least one compression plate recess, and at least one compression plate aperture. At least one compression spring is disposed between the backer plate and the compression plate. A screw tension release mechanism is screwed into the backer plate threaded aperture and inserted through the compression plate aperture.

Abstract: A method and device for manipulating color in a display includes a display in which one or more of the pixels includes one or more display elements, such as interferometric modulators, configured to output colored light and one or more display elements configured to output white light. Other embodiments include methods of making such displays. In addition, embodiments include color displays configured to provide a greater proportion of the intensity of output light in green portions of the visible spectrum in order to increase perceived brightness of the display.

Abstract: Streaming media network transportation streams are created using an electronic system and transmitted via an electronic interface such as an existing system network conduit (i.e. Ethernet, USB, or other packet-based architectures). A scalable hardware and/or software compute engine modifies an initial stream's identifier(s) while replicating the stream content to economically create streams. Hence, an entire network's capacity of active streams may be created from a single initial stream. In one examples, an initial stream is stored in advance of transmission for such use. In other examples, an initial stream is received and processed to dynamically create streams from the initial stream as the initial stream is being received.

Abstract: AFM tweezers that include a first probe, including a triangular prism member having a tip of a ridge which is usable as a probe tip in a scanning probe microscope, and a second probe, including a triangular prism member provided so as to open/close with respect to the first probe, are provided. The first probe and the second probe are juxtaposed such that a predetermined peripheral surface of the triangular prism member of the first probe and a predetermined peripheral surface of the triangular prism member of the second probe face substantially in parallel to each other, and the first probe formed of a notch that prevents interference with a sample when the sample is scanned by the tip of the ridge.

Abstract: A method for reducing power consumption and heat generation in a computer system employs a substitute idle task that puts the processor into a dormant mode, e.g., sleep, nap, or doze mode. The substitute idle task replaces a conventional operating system idle task. The substitute idle task may have a low priority, such as that of the conventional idle task, which it replaces. At each occurrence of a quantum interrupt, a task scheduler schedules applications for execution during the accompanying time slice. After the scheduled applications are done, the substitute idle task is executed. The dormant mode caused by the idle task reduces the system's power consumption. The idle task may also have a high priority and be designed to run for a predetermined percentage of time. Because the processor spends the predetermined percentage of time in the dormant mode, known power consumption reduction may be guaranteed in the system.

Abstract: The invention includes methods of electrically interconnecting different elevation conductive structures, methods of forming capacitors, methods of forming an interconnect between a substrate bit line contact and a bit line in DRAM, and methods of forming DRAM memory cells. In one implementation, a method of electrically interconnecting different elevation conductive structures includes forming a first conductive structure comprising a first electrically conductive surface at a first elevation of a substrate. A nanowhisker is grown from the first electrically conductive surface, and is provided to be electrically conductive. Electrically insulative material is provided about the nanowhisker. An electrically conductive material is deposited over the electrically insulative material in electrical contact with the nanowhisker at a second elevation which is elevationally outward of the first elevation, and the electrically conductive material is provided into a second conductive structure.

Abstract: Methods of forming and operating phase change memory devices include adjusting an activation energy barrier between a metastable phase and a stable phase of a phase change material in a memory cell. In some embodiments, the activation energy barrier is adjusted by applying stress to the phase change material in the memory cell. Memory devices include a phase change memory cell and a material, structure, or device for applying stress to the phase change material in the memory cell. In some embodiments, a piezoelectric device may be used to apply stress to the phase change material. In additional embodiments, a material having a thermal expansion coefficient greater than that of the phase change material may be positioned to apply stress to the phase change material.

Abstract: A semiconductor device has a base substrate having a plurality of metal traces and a plurality of base vias. An opening is formed through the base substrate. A cover substrate having a plurality of metal traces and a plurality of cover vias is provided. A first die is attached to the first surface of the substrate and positioned over the opening. Side members are coupled to ground planes on the base substrate and cover substrate to form an RF shield around the first die. At least one wirebond having a first end attached to the first die and a second end attached to a metal trace of the base substrate is provided. The at least one wirebond forms a loop wherein a top section of the loop contacts a metal trace of the cover substrate.

Abstract: The invention relates to a family of cyanine dyes which fluoresce in the far red and near infra red wavelengths of the spectrum and preferably possess lipophilic side chains. The dyes of the invention are soluble in commercially available membrane staining vehicles, are useful as probes for rapidly staining lipophilic structures such as membranes in cells or isolated from cells, and are well retained therein. Methods of using the dyes to detect stained cells both in vivo and in vitro are also disclosed.

Abstract: A semiconductor substrate includes a pair of trenches filled with a dielectric material. Dopant introduced into the mesa between the trenches is limited from diffusing laterally when the substrate is subjected to thermal processing. Therefore, semiconductor devices can be spaced more closely together on the substrate, and the packing density of the devices can be increased. Also trench constrained doped region diffuse faster and deeper than unconstrained diffusions, thereby reducing the time and temperature needed to complete a desired depth diffusion. The technique may be used for semiconductor devices such as bipolar transistors as well as isolation regions that electrically isolate the devices from each other. In one group of embodiments, a buried layer is formed at an interface between an epitaxial layer and a substrate, at a location generally below the dopant in the mesa.

Abstract: Provided is a method of manufacturing a crystalline semiconductor thin film formed on an amorphous or poly-crystalline substrate such as a glass substrate, a ceramic substrate, and a plastic substrate through induction heating using photo-charges. The method of manufacturing a crystalline semiconductor thin film includes a process of forming a low-concentration semiconductor layer on an inexpensive amorphous or poly-crystalline substrate such as a glass substrate, a ceramic substrate, and a plastic substrate and a process of crystallizing the low-concentration semiconductor layer through an induction heating manner using photo-charges. Accordingly, a low-concentration crystalline semiconductor thin film having characteristics better than those of general amorphous or poly-crystalline semiconductor thin film can be obtained by using simple processes at low production cost.

Abstract: A solution for protecting an electronic device from an electrical surge using a mounting structure is provided. In particular, the mounting structure comprises a conductive material and is electrically connected to the protected electrical device. The conductive material and/or mounting structure can have one or more properties that prevent the mounting structure from adversely impacting operation of the electronic device during normal operation, but enables the mounting structure to provide an alternative electrical path during the electrical surge.

Abstract: A method of tuning a high temperature superconductor (HTS) resonator includes the steps of providing a HTS inductor and a HTS capacitor, the HTS capacitor being electrically connected to the HTS inductor. A tuning body is provided adjacent to the HTS inductor and the HTS capacitor. The relative position of the tuning body with respect to the HTS inductor and the HTS capacitor is altered so as to tune the resonator. A tunable resonant circuit is provided that includes a substrate having a planar surface. At least one resonator formed from HTS material is disposed on the substrate, the resonator having one or more turns that when combined, turn through greater than 360°.

Abstract: Methods of operating memory devices include determining a threshold voltage drift of two or more reference memory cells of the memory device programmed to only a subset of data states of the memory device and, using the determined threshold voltage drift of the two or more reference memory cells, estimating a threshold voltage drift of one or more user data memory cells programmed to a data state of the memory device that is mutually exclusive to the subset of data states of the memory device. Apparatus include memory devices having an array of memory cells having one or more user data memory cells and two or more reference memory cells, and control circuitry configured to maintain locations and initial programmed threshold voltages of the two or more reference memory cells corresponding to only a subset of data states of the memory device.

Abstract: An image forming system, having means for storing usage histories of latent image carriers, developer, or the like and maintenance cycles of image forming apparatuses and having a function for selecting image forming apparatuses outputting an image based on the usage history data or the maintenance cycles, in order to achieve uniform output image qualities. By managing the usage histories so as to achieve approximately the same deteriorated conditions of the latent image carriers of the image forming apparatuses, the image forming apparatuses can be put in the same condition and thus the output image qualities can be approximately the same in the image forming apparatuses. Additionally, the maintenance cycles can be adjusted to be approximately the same in the image forming apparatuses. Otherwise, maintenance periods can be controlled so as not to overlap in the image forming apparatuses.

Abstract: A system and method for producing an ozone-containing disinfecting cloud includes an enclosure. A pair of atomizing nozzles are affixed to the enclosure in substantially directly opposed relation. Each nozzle produces a spray of ozonated water from compressed gas, ozone, and water and are positioned to direct the sprays toward each other to form a cloud comprising droplets having a size distribution. A portion of the cloud that comprises droplets having a size less than a predetermined limit is expelled from the enclosure. Droplets having a size greater than the predetermined limit remain in the enclosure. The expelled cloud has been found to have a pH lower than a pH of the remaining droplets. The cloud so produced can be used to disinfect an area by directing the cloud to the area desired to be disinfected, which can comprise a surface and/or a space.