Abstract: A coating device includes a first physical vapor deposition chamber, a chemical vapor deposition chamber, and a second physical vapor deposition chamber. The first physical vapor deposition chamber is used to prepare the aforementioned first transparent conductive layer. The chemical vapor deposition chamber is in communication with the first physical vapor deposition chamber. The chemical vapor deposition chamber is used to prepare the aforementioned first interlayer film. The second physical vapor deposition chamber is in communication with the chemical vapor deposition chamber. The second physical vapor deposition chamber is used to prepare the aforementioned second transparent conductive layer.

Abstract: An optical scanner comprising an aimer light source to emit highly polarized light, a window, and a linear polarizer positioned between the aimer light source and the window. Further, the linear polarizer receives the highly polarized light and converts into linear polarized light. Further, a quarter-wave plate is positioned between the linear polarizer and the window. Further, the quarter-wave plate receives the linear polarized light and converts into circularly polarized light. Therefore, the linear polarizer and the quarter-wave plate prevent back reflection of the circularly polarized light from the window from reaching the aimer light source for preventing an aimer ghost light.

Abstract: Improved coating formulations containing silica based matting agents in the form of a blend of low pore volume silica particles and high pore volume silica particles are disclosed. The matting formulations are useful in waterborne coating compositions to provide exceptional properties to a coated substrate. Films resulting from the coating formulations containing silica-based matting agents on a substrate unexpectedly provide improved chemical resistance to the surface of the substrate, in particular wood or plastics. Methods of making and using the silica-based matting formulations are also disclosed.

Abstract: The present disclosure is directed to coating compositions that include about 10 wt. % to about 90 wt. % water, about 5 wt. % to about 80 wt. % of a binder, and about 0.1 wt. % to about 20 wt. % of a colloidal silica functionalized with anionic molecules and/or a colloidal silica functionalized with neutral molecules. The present disclosure also is directed to methods of making coating compositions of the present technology.

Abstract: Provided are a LED display unit group and a display panel. The LED display unit group includes a circuit board and pixel units. The circuit board includes N metal wiring layers stacked in sequence and an insulating plate disposed between adjacent metal wiring layers, and the N metal wiring layers are electrically connected through conductive vias on the insulating plate. The pixel units are arranged in an array of m rows and n columns and disposed on the circuit board. Each pixel unit includes at least two LED light-emitting chips with different emitted colors, each LED light-emitting chip is fixed on a first metal wiring layer. The first metal wiring layer includes m common A-electrode pads, A-electrode pads, and B-electrode pads. All the A-electrode pads corresponding to each row of pixel units are integrally formed with and electrically connected to one corresponding common A-electrode pad.

Abstract: A preparation method of pre-gelatinized pea protein powder includes steps of (A) mixing original pea protein powder material with deionized water, and obtaining serosity after stirring; (B) heating a surface temperature of a drum, sending the serosity obtained by step (A) to a surface of the drum with a pump, forming a film on the surface of the drum through the rotation of the drum, immediately gelatinizing, and obtaining a pea protein thin layer after quickly dehydrating and drying; (C) peeling the pea protein thin layer off with a scraper when a moisture of the pea protein thin layer obtained by step (B) decreases to 5%, pulverizing with a multi-functional pulverizer, and feeding a pulverized product into a circular vibrating screen by gas extraction; and (D) removing large particles of pea protein powder by the circular vibrating screen, so that the pre-gelatinized pea protein powder is obtained.

Abstract: A substrate module includes a first substrate on which pad groups and a test terminal are disposed; a driver chip disposed on a side of the first substrate facing away from the pad groups and the test terminal, where the driver chip is connected to the pad groups and the test terminal separately; a second substrate disposed on a side of the driver chip facing away from the first substrate, where pins are disposed on a side of the second substrate facing away from the first substrate, and the driver chip is connected to the pins; and a filling layer disposed between the first substrate and the second substrate and configured to enclose the driver chip.

Abstract: Improved silica-based matting agents are disclosed. The matting agents are useful in waterborne coatings composition to provide exceptional properties to a wood based substrate. Films resulting from the silica-based matting agents on a wood substrate unexpectedly provide improved chemical resistance and/or film clarity to the surface of the wood substrate. Methods of making and using the silica-based matting agents are also disclosed.

Abstract: This invention relates to a defoamer active. The defoamer active may include hydrophobized silica particles obtained by treating silica particles with a hydrophobilizing agent. The silica particles may have a BET surface of less than about 150 m2/g, a surface pH of at least about 10, and a median particle size ranging from about 2 ?m to about 50 ?m. The carbon content of the hydrophobized silica particles may not be more than 3%.

Abstract: This invention relates to a coating composition. The coating composition may include hydrophobized aluminum silicate particles, a film-forming binder, and a solvent. the hydrophobized aluminum silicate particles comprise aluminum silicate particles having a pore diameter of about 50 ? or more and a hydrophobic coating on a surface of the aluminum silicate particles.

Abstract: A cryogenic vessel includes a shell, an inner vessel and a thermal insulation layer arranged on a periphery of the inner vessel, a gap is provided between the shell and the inner vessel to form a sandwich space in a vacuum environment. The pressurizing device includes a fixing member, a protruding member, a heat conducting member, an operating member and a connecting member.

Abstract: A solid electrolyte material having a general chemical formula of Li2+xM2+xM?1?xS6, where M is at least one of Al, Ga or In, M? is at least one of Si or Ge, and 0<x?0.5. The solid electrolyte material according to the application is simple in composition, contains no phosphorus sensitive to water, and has good Li+ conductivity at the same time.

Abstract: Improved silica-based matting agents are disclosed. The matting agents are useful in waterborne coatings composition to provide exceptional properties to a wood based substrate. Films resulting from the silica-based matting agents on a wood substrate unexpectedly provide improved chemical resistance and/or film clarity to the surface of the wood substrate. Methods of making and using the matting agents are also disclosed.

Abstract: Provided is an LED display unit group, comprising: an insulation substrate, a front circuit board, and a back circuit board. The front circuit board is divided into pixel areas arranged in an array of 2m rows and 2n columns. Each pixel area comprises three A-electrode pads, three LED light-emitting chips of different light emission colors, and B-electrode pads corresponding to the three LED light-emitting chips. In each pixel area, the electrode A of each LED light-emitting chip is electrically connected to a corresponding A-electrode pad, and the electrode B of each LED light-emitting chip is electrically connected to a corresponding B-electrode pad. In the same column of pixel areas, B-electrode pads corresponding to all LED light-emitting chips are electrically connected to each other. In the same row of pixel areas, A-electrode pads corresponding to LED light-emitting chips of the same light emission color are electrically connected to each other.

Abstract: cryogenic vessel includes a shell, an inner vessel and a thermal insulation layer arranged on a periphery of the inner vessel, a gap is provided between the shell and the inner vessel to form a sandwich space in a vacuum environment. The pressurizing device includes a fixing member, a protruding member, a heat conducting member, an operating member and a connecting member.

Abstract: Improved silica based matting agents are disclosed. The matting agents are useful in waterborne coatings composition to provide exceptional properties to a wood based substrate. Films resulting on the coated substrate unexpectedly provide improved chemical resistance, thermal stress resistance, weather resistance, and/or film clarity to the surface of a wood substrate. Methods of making and using the matting agents are also disclosed.

Abstract: In some embodiments, a method adds a specific route for an IP address that is associated with a first workload into a routing table for a first network device in a first site in response to the first workload being migrated from a second site to the first site. The first network device receives a packet from a second workload for the first workload and determines that a destination of the packet matches the specific route in the routing table. The method routes the packet from the second workload to the first workload using the specific route in the routing table without sending the packet to the second site.

Abstract: Disclosed are a high-efficiency and high-reliability PERC solar cell and a front electrode thereof, and a manufacturing method, which belong to the solar cell technology. Busbars of the front electrode of solar cell of the present disclosure includes fine busbars and solder joints distributed on the fine busbars at intervals. Each fine busbar between adjacent solder joints includes a straight fine busbar connecting the two solder joints, and side fine busbars located on both sides of the straight fine busbar respectively. In the method for manufacturing the front electrode, the busbars and the fingers are printed by a step-by-step printing process.

Abstract: Certain embodiments herein are directed to a method of by a source virtual tunnel endpoint (VTEP) for selecting a tunneling protocol for encapsulating a packet destined for a destination VTEP. In some embodiments, the method includes receiving the packet for transmission to the destination VTEP. The method further includes determining whether the destination VTEP is configured with a first tunneling protocol. Upon determining that the destination VTEP is configured with the first tunneling protocol, the method includes encapsulating the packet using the first tunneling protocol, and transmitting the encapsulated packet to the destination VTEP. Upon determining that the destination VTEP is not configured with the first tunneling protocol, encapsulating the packet using a second tunneling protocol, and transmitting the encapsulated packet to the destination VTEP.

Abstract: A positive electrode material includes a first powder. The first powder includes first secondary particles. The first secondary particles includes at least two first primary particles. An average particle diameter D1 of the first primary particles is 500 nm to 3 ?m. An average particle diameter D2 of the first secondary particles is 2 ?m to 8 ?m. A ratio K1 of D2 to D1 satisfies: 2?K1?10. The first powder includes an element Co and optionally further includes a metal element M. The metal element M includes at least one of Mn, Al, W, Ti, Zr, Mg, La, Y, Sr, or Ce. A molar ratio R1 between Co and M is greater than or equal to 5. The positive electrode material achieves relatively high rate performance and safety on the basis of achieving a relatively high energy density.