Abstract: A system for generating and purifying hydrogen. To generate hydrogen, the system includes inlets configured to receive a hydrogen carrier and an inert insulator, a mixing chamber configured to combine the hydrogen carrier and the inert insulator, a heat exchanger configured to apply heat to the mixture of hydrogen carrier and the inert insulator, wherein the applied heat results in the generation of hydrogen from the hydrogen carrier, and an outlet configured to release the generated hydrogen. To purify hydrogen, the system includes a primary inlet to receive a starting material and an ammonia filtration subassembly, which may include an absorption column configured to absorb the ammonia into water for providing purified hydrogen at a first purity level. The ammonia filtration subassembly may also include an adsorbent member configured to adsorb ammonia from the starting material into an adsorbent for providing purified hydrogen at a second purity level.

Abstract: A microfluidic detection system for micrometer-sized entities, such as biological cells, includes a detector component incorporating a plate with a plurality of opening, the plate separating two chambers, one in communication with a fluid source containing target cells bound to magnetic beads. The openings are sized to always permit passage of the magnetic beads therethrough into a lower one of the chambers and are further sized to always prevent passage of the target cells from the upper one of the chambers. The detector component further includes a magnet positioned to pull unbound magnetic beads through the openings and to capture target cells bound to magnetic beads on the surface of the plate. The microfluidic detection system includes a pump flowing the fluid through the detector component at high flow rates of milliliters per minute for high throughput detection of target cells.

Abstract: The present disclosure provides a new tandem mass spectrometer and methods of using the same for analyzing charged particles. The differentially pumped dual linear quadrupole ion trap mass spectrometer of the present disclose includes a combination of two linear quadrupole (LQIT) mass spectrometers with differentially pumped vacuum chambers.

Abstract: A packet of data and a packet-identification value are transmitted to a network device having an identifier. The stored packet-identification value and the identifier are recorded. The stored packet-identification value is then increased and the process repeats. To receive data, an expected identification value is stored in association with the identifier. A packet and a packet-identification value are received from the network device. The identifier and an indication of receipt are stored. If the received value does not match the expected value for the identifier, the received value is stored. If the values match, the stored packet-identification value and identifier are recorded. If the received value exceeds the expected value, the stored packet-identification value, the identifier and the received identifier are recorded. Subsequently, the stored expected value is increased. The process repeats. Network devices and systems are described.

Abstract: Embodiments of the present disclosure, in one aspect, relate to compositions including a silver/silica nanocomposite, methods of making a silver/silica nanocomposite, methods of using a silver/silica nanocomposite, and the like.

Abstract: An apparatus for targeting a desired target site on a body tissue comprising a wall of a first body cavity of a patient includes a target catheter. A framing member has a collapsed condition and an expanded condition. The framing member has a framing member body which includes a bulbous portion defining a maximum body footprint having proximal and distal body ends which are both longitudinally spaced from the maximum body footprint. The framing member is comprised of a plurality of framing member beams. At least three framing member beam arrays of framing member beams are arranged in non-overlapping longitudinal sequence to form at least a portion of the framing member. The framing member beams that make up the framing member substantially each have a width-to-thickness fractional ratio in the range of 0.6-3.0.

Abstract: A structurally reinforced optically transparent panel that may be utilized as a bulletproof window or shield. The panel includes a plurality of angled reinforcement members having a reflective top and bottom surfaces. Optical lenses are disposed between the reinforcement members directing a light ray in a predetermined direction. The geometry and spacing of the reinforcement members is such that the light rays enter and exit the bulletproof panel at substantially the same angle allowing an observer to view optical images of objects behind the bulletproof panel, thus creating optical transparency. The reinforcement members are of a high strength material capable of being impenetrable by a projectile fired from a ballistic weapon or an explosion debris.

Abstract: Compounds of formula (I) are useful for inhibiting a proteasome in a cell. Compounds, pharmaceutical compositions and methods of use are provided herein.

Abstract: Disclosed are heterogeneous crystals for use in a laser cavity and methods of forming the crystals. A crystal can be a monolithic crystal containing a vanadate-based activator region and a vanadate-based Q-switch. Disclosed methods include hydrothermal growth techniques for the growth of differing layers on a host. A YVO4 host material can be doped in one region with a suitable active lasing ion and can be formed with another region that is doped with a saturable absorber. Regions can be formed with controlled thickness. Following formation, a heterogeneous crystal can be cut, polished and coated with mirror films at each end for use in a laser cavity to provide short pulses of high power emissions using high frequency pulse modes.

Abstract: A method for producing a compound represented by General Formula (1), the method including: reacting a compound represented by General Formula (3) and a compound represented by General Formula (4): where R1 and R2 each represent aliphatic group which may have substituent, or aromatic group which may have substituent (with the proviso that R1 and R2 are different groups), R3 represents aromatic group which may have substituent, and R4 represents aliphatic group which may have substituent, or aromatic group which may have substituent, where R1 and R2 each represent aliphatic group which may have substituent, or aromatic group which may have substituent (with the proviso that R1 and R2 are different groups), and R3 represents aromatic group which may have substituent, where R4 represents aliphatic group which may have substituent, or aromatic group which may have substituent.

Abstract: An organic light-emitting diode, comprising a substrate; a first electrode on the substrate; a second electrode disposed opposite to the first electrode; and an emission layer between the first electrode and the second electrode, the emission layer including an anthracene-based compound represented by Formula 1, below, and a condensed cyclic compound represented by Formula 20, below:

Abstract: The present invention relates to a method for forming a silicon oxide nanopattern, in which the method can be used to easily form a nanodot or nanohole-type nanopattern, and a metal nanopattern formed by using the same can be properly applied to a next-generation magnetic recording medium for storage information, etc., a method for forming a metal nanopattern, and a magnetic recording medium for information storage using the same. The method for forming a silicon oxide nanopattern includes the steps of forming a block copolymer thin film including specific hard segments and soft segments containing a (meth)acrylate-based repeating unit on silicon oxide of a substrate; conducting orientation of the thin film; selectively removing the soft segments from the block copolymer thin film; and conducting reactive ion etching of silicon oxide using the block copolymer thin film from which the soft segments are removed, as a mask to form a silicon oxide nanodot or nanohole pattern.

Abstract: The present invention provides a method for fabricating slanted copper nanorods. The method includes manufacturing a workpiece configured to include an etch stop layer on a wafer, placing the workpiece in a slanted position, and etching the slanted workpiece, forming a copper (Cu) layer on the slanted workpiece by plating, removing an over-plated portion from the copper layer, and removing a polysilicon (poly Si) excluding copper from the surface of the workpiece. According to the invention, copper nanorod structures having a uniform array can be fabricated in a large area at a high process yield compared to conventional methods. In addition, the angle and diameter of copper nanorods can be controlled as desired so that the applicability thereof can be greatly increased. Moreover, the present invention can be applied to processes for fabricating various devices, including semiconductor devices, MEMSs (microelectromechanical systems), optical devices, gas sensors, display devices, etc.

Abstract: The presently disclosed subject matter provides methods of characterizing a melanoma in a subject by measuring amounts of one or more RNAs, miRNAs, and/or polypeptides present in cancer-derived microvesicles isolated from a biological sample from the subject.

Abstract: Certain embodiments of the invention include compositions comprising a compound of Formula (I), and salts, isomers, and derivatives thereof. Pharmaceutical compositions of some embodiments of the present invention comprise a compound of Formula (I), and salts, isomers, and derivatives thereof. Other embodiments of this invention include methods for treating disease (e.g., cancer) and methods for administering a compound of Formula (I), and salts, isomers, and derivatives thereof.

Abstract: The present invention encompasses the use of compounds for a novel approach to treat and prevent diseases, conditions, and disorders such as diabetes and ischemic reperfusion injury. Compounds of the invention, including but not limited to BAM15 ((2-fluorophenyl){6-[(2-fluorophenyl)amino](1,2,5-oxadiazolo[3,4-e]pyrazin-5-yl)}amine), a mitochondrial uncoupler, can improve glucose tolerance, increases cellular oxygen consumption, treat or prevent kidney ischemia reperfusion injury reverse insulin resistance, reverse or treat hyperinsulinemia, and reverse or treat hyperlipidemia. The present invention further provides novel compounds as well as methods for identifying compounds with the same or similar properties as BAM15.

Abstract: A Vitex agnus-castus plant named ‘V07-SC-OP-4’ has short, dense panicles and dark pink flowers.

Abstract: A Vitex agnus-castus plant named ‘V0502-33’ has medium blue flowers, compound panicles with a greater number of secondary peduncles per panicle; resulting in an unusual stunning floral display.

Abstract: The Vitex agnus-castus plant is of short height, has a compact form and pink flowers.

Abstract: Bermudagrass ‘DT-1’ is provided. The new and distinct upright variety has excellent drought tolerance, superior wear tolerance, small seed heads, and thrives in hot and humid conditions. The asexually reproduced triploid variety is reliably propagated vegetatively.