Abstract: A cleaning composition for sanitizing and/or disinfecting hard surfaces, comprising: a cationic biocide, surfactant and low levels of VOC solvents. The cleaning composition is adapted to clean a variety of hard surfaces without leaving behind a visible residue and creates low levels of streaking and filming on the treated surface. The cleaning composition contains less than 5% by weight of VOCs. The cleaning composition may be used alone as a liquid or spray formulation or in combination with a substrate, for example, a pre-loaded cleaning wipe.

Abstract: Embodiments of the invention disclose an array substrate and a method for manufacturing the same, and a display device. The method for manufacturing an array substrate comprising: forming a gate metal layer, wherein the gate metal layer comprises gate lines; film-forming an active layer and film-forming a signal line metal layer, wherein the signal line metal layer comprises data lines; and forming both a pattern of the active layer and a pattern of the signal line metal layer simultaneously using a half-tone mask process, wherein after film-forming the active layer and before film-forming the signal line metal layer, the method further comprising: hollowing out a first region of the active layer through a patterning process, wherein the first region is below the data lines in a display area, and the first region excludes portions of the active layer corresponding to overlapping regions of the data lines and the gate lines.

Abstract: Embodiments of the invention disclose an array substrate and a method for manufacturing the same, and a display device. The method for manufacturing an array substrate comprising: forming a gate metal layer, wherein the gate metal layer comprises gate lines; film-forming an active layer and film-forming a signal line metal layer, wherein the signal line metal layer comprises data lines; and forming both a pattern of the active layer and a pattern of the signal line metal layer simultaneously using a half-tone mask process, wherein after film-forming the active layer and before film-forming the signal line metal layer, the method further comprising: hollowing out a first region of the active layer through a patterning process, wherein the first region is below the data lines in a display area, and the first region excludes portions of the active layer corresponding to overlapping regions of the data lines and the gate lines.

Abstract: The present invention relates to the field of displays and discloses a color filter substrate, a display device and a method for manufacturing a color filter substrate. The color filter substrate comprises: a transparent substrate; a light-electricity converting module, provided on the transparent substrate and configured to convert a light beam incident from the transparent substrate into electric energy. The display device comprises the color filter substrate. In the invention, a light-electricity converting module is set on a transparent substrate, thus a light beam incident from the transparent substrate may be converted into electric energy, so that the sunlight transmitted into a display panel may be transformed into electric energy; because the solar energy is abundant, it may meet the demand of the display panel, and the service time of the display panel may be prolonged.

Abstract: The invention relates to preloaded cleaning and sanitizing wipes comprising a nonwoven substrate, and a cleaning formulation loaded onto or within the nonwoven substrate. The cleaning composition may include about 0.001% to about 10% by weight of an antimicrobial compound comprising a quaternary ammonium compound, less than about 4% by weight of an alcohol solvent containing a single hydroxyl group, a preservative, about 0.05% to about 10% by weight of a glycol solvent (e.g., preferably a glycol ether solvent), about 0.05% to about 10% of one or more surfactants, and water. The composition may have a pH from about 4 to about 8.

Abstract: A cleaning composition for sanitizing and/or disinfecting hard surfaces, comprising: a cationic biocide, surfactant and low levels of VOC solvents. The cleaning composition is adapted to clean a variety of hard surfaces without leaving behind a visible residue and creates low levels of streaking and filming on the treated surface. The cleaning composition contains less than 5% by weight of VOCs. The cleaning composition may be used alone as a liquid or spray formulation or in combination with a substrate, for example, a pre-loaded cleaning wipe.

Abstract: The disclosure provides metal organic frameworks useful for sensing, gas sorption, microelectronics and switches.

Abstract: Tunable MEMS resonators having adjustable resonance frequency and capable of handling large signals are described. In one exemplary design, a tunable MEMS resonator includes (i) a first part having a cavity and a post and (ii) a second part mated to the first part and including a movable layer located under the post. Each part may be covered with a metal layer on the surface facing the other part. The movable plate may be mechanically moved by a DC voltage to vary the resonance frequency of the MEMS resonator. The cavity may have a rectangular or circular shape and may be empty or filled with a dielectric material. The post may be positioned in the middle of the cavity. The movable plate may be attached to the second part (i) via an anchor and operated as a cantilever or (ii) via two anchors and operated as a bridge.

Abstract: This invention relates to compositions and methods to provide an effervescent garbage disposal cleaner. The compositions are contained in a water-soluble film and include encapsulated technologies to isolate ingredients that are sensitive to temperature and humidity fluctuations, and are also prone to react with each other, which would result in comprising the overall product performance.

Abstract: Embodiments of the present invention provide three-dimensional glasses and a control chip thereof. The three-dimensional glasses comprise: a normal black mode liquid crystal eyeglass; a normal white mode liquid crystal eyeglass; and a control chip, connected to both of the normal black mode liquid crystal eyeglass and the normal white mode liquid crystal eyeglass, wherein a voltage output terminal of the control chip simultaneously supplies a high level or a low level to the normal black mode liquid crystal eyeglass and the normal white mode liquid crystal eyeglass based on a predetermined high and low level switching frequency.

Abstract: A TFT-LCD array substrate, a manufacturing method thereof and a liquid crystal display panel are provided in the invention. The TFT-LCD array substrate comprises a plurality of first gate lines and a plurality of first data lines, and a plurality of pixel regions are defined by intersecting the first gate lines and the first data lines with each other. A first pixel electrode and a first TFT are formed in each of the pixel regions, and a second TFT and a second pixel electrode are further comprised in each of the pixel regions. The second TFT is connected with the second pixel electrode, the first pixel electrode and the second pixel electrode form the voltage difference to drive the reversion of the liquid crystal molecules, and the first TFT and the second TFT are turned on or off simultaneously.

Abstract: The invention relates to drain cleaning compositions including relatively high concentrations of a hypochlorite oxidizing agent and a hydroxide (e.g., 4 to 12% and 2.5 to 10%, respectively. The composition further includes a surfactant (e.g., a surfactant blend, water, and exhibits a very high pH (e.g., at least 13). The composition is monophasic, even at high oxidizing and hydroxide concentrations. The surfactant may include a blend of an uncharged surfactant (e.g., an amphoteric surfactant or nonionic surfactant) and a charged surfactant (e.g., anionic, cationic, or a surfactant that becomes so under the high pH conditions of the composition). The ratio of charged to uncharged surfactant may be at least 1:10, e.g., from 1:10 to about 1:50.

Abstract: A thin film transistor (TFT) array substrate, a manufacturing method thereof and a display device are provided. The manufacturing method comprises: forming a first passivation layer (8) on a substrate (1), and forming a board wiring PAD-region via hole (11) in the first passivation layer (8) above the board wiring PAD region (11) through a first patterning process; forming a second passivation layer (16) on the substrate (1) formed with the board wiring PAD-region via hole (11), and forming a pixel-region via hole (15) in the first passivation layer (8) and the second passivation layer (16) above the display electrode (7) through a second patterning process in such a way that the pixel-region via hole (15) has a top-size smaller than its bottom-size; and applying a transparent conductive layer on the substrate (1) formed with the pixel-region via hole (15) to form a second display electrode.

Abstract: This invention relates to compositions and methods to provide an effervescent garbage disposal cleaner. The compositions are contained in a water-soluble film and include encapsulated technologies to isolate ingredients that are sensitive to temperature and humidity fluctuations, and are also prone to react with each other, which would result in comprising the overall product performance.

Abstract: This disclosure provides systems, methods and apparatus for a variable capacitance apparatus. In one aspect, an apparatus includes a plurality of electromechanical systems varactors connected in parallel. Each of the plurality of electromechanical systems varactors includes a first, a second, and a third metal layer. The first metal layer includes a first bias electrode. The second metal layer is spaced apart from the first metal layer to define a first air gap, and includes a first radio frequency electrode. A third metal layer is spaced apart from the second metal layer to define a second air gap, and includes a second radio frequency electrode and a second bias electrode. The second bias electrode of each of the plurality of electromechanical systems varactors has a different projected area perpendicular to a surface of the second metal layer and onto the surface of the second metal layer.

Abstract: This disclosure provides systems, methods and apparatus for electromechanical systems variable capacitance devices. In one aspect, an electromechanical systems variable capacitance device includes a substrate with a first metal layer including a first bias electrode overlying the substrate. A member suspended above the first metal layer includes a dielectric beam and a second metal layer including a first radio frequency electrode and a ground electrode. The member and the first metal layer define a first air gap. A third metal layer over the member includes a second bias electrode, and the third metal layer and the member define a second air gap. The member includes a plane of symmetry substantially parallel a plane containing the first bias electrode.

Abstract: This disclosure provides systems, methods and apparatus for electromechanical systems variable capacitance devices. In one aspect, an electromechanical systems variable capacitance device includes a substrate with a bottom bias electrode on the substrate. A first radio frequency electrode above the bottom bias electrode defines a first air gap. A non-planarized first dielectric layer is between the bottom bias electrode and the first radio frequency electrode. A metal layer above the first radio frequency electrode defines a second air gap. The metal layer includes a top bias electrode and a second radio frequency electrode.

Abstract: This disclosure provides systems, methods and apparatus for controlling a mechanical layer. In one aspect, an electromechanical systems device includes a substrate and a mechanical layer positioned over the substrate to define a gap. The mechanical layer is movable in the gap between an actuated position and a relaxed position, and includes a mirror layer, a cap layer, and a dielectric layer disposed between the mirror layer and the cap layer. The mechanical layer is configured to have a curvature in a direction away from the substrate when the mechanical layer is in the relaxed position. In some implementations, the mechanical layer can be formed to have a positive stress gradient directed toward the substrate that can direct the curvature of the mechanical layer upward when the sacrificial layer is removed.

Abstract: A magnet target comprising a fixing plate, a plurality of shafts arranged in an array, a plurality of connecting rods pivotably provided onto a plate surface of the fixing plate at one end and capable of rotating about corresponding one of the shafts, and a plurality of magnets that are each attached to the other fee end of one connecting rod. The magnets comprise magnets having external S poles and magnets having external N poles, and the magnets having external S poles and magnets having external N poles are arranged alternatively in an array.

Abstract: MEMS varactors capable of handling large signals and/or achieving a high capacitance tuning range are described. In an exemplary design, a MEMS varactor includes (i) a first bottom plate electrically coupled to a first terminal receiving an input signal, (ii) a second bottom plate electrically coupled to a second terminal receiving a DC voltage, and (iii) a top plate formed over the first and second bottom plates and electrically coupled to a third terminal. The DC voltage causes the top plate to mechanically move and vary the capacitance observed by the input signal. In another exemplary design, a MEMS varactor includes first, second and third plates formed on over one another and electrically coupled to first, second and third terminals, respectively. First and second DC voltages may be applied to the first and third terminals, respectively. An input signal may be passed between the first and second terminals.