Abstract: This application discloses a process to synthesize 8-({1-(3,5-Bis-(trifluoromethyl)phenyl)-ethoxy)-methyl]-8-pheny-1,7-diazaspiro[4.5]decan-2-one comprising reacting a compound of the Formula 27a-sulfonate with zinc in the presence of acetic acid.

Abstract: A compound having the general structure shown in Formula I: or pharmaceutically acceptable salts and/or solvates thereof are useful in treating diseases or conditions mediated by NK1 receptors, for example various physiological disorders, symptoms or diseases, including emesis, depression, anxiety and cough.

Abstract: The present relates to antioxidant conductive copper ink and the method for preparing the same. The antioxidant conductive copper ink comprises nanometer copper or copper-alloy particles, which are used as the conductive particle material, water-free alcohol, which is used as the solvent, tert-butanol and ultra-pure water, which is used as the pasting agent, and carboxylic acid, which is used as the dispersant. Alternatively, isopropanol is used as the pasting agent and glycol is used as the solvent for injecting processes. The antioxidant conductive copper ink disclosed in the present invention owns the properties of high stability and low cost, and hence is applicable to the applications of fabricating the electrodes of silicon-crystal solar cells and printable electronic materials such as PCB or RFID.

Abstract: A lens device and a light source module using the same are provided. The lens device comprises a lens and a patterned light shielding layer. The lens has a middle light emitting surface and a periphery light emitting surface surrounding the middle light emitting surface. The patterned light shielding layer is formed on the periphery light emitting surface of the lens.

Abstract: A controlling method, a controller and a packet processing method for a software-defined network (SDN) are provided. The controlling method includes the following steps: receiving a registration message from a user equipment (UE), wherein the registration message includes a network access status of the UE; selecting a switch of the SDN as an aggregation entity (AE) for the UE according to the network access status; calculating a plurality of routing paths between the UE and the AE, wherein each routing path is coupled to one of a plurality of network interfaces of the UE; and setting flow entries in the AE and each switch in the routing paths for routing packets between the UE and a remote network.

Abstract: The present invention discloses in detail a semiconductor device and a patterning method for the plated electrode thereof. By using the laser ablation method according to the prior art, the semiconductor substrate below the ARC is damaged by direct destructive burning. According to the present invention, an additional protection layer is inserted between the ARC and the semiconductor substrate. Then a laser is used for heating and liquefying the protection layer below the ARC, and thus separating the ARC from the liquefied protection layer underneath and forming pattered openings. Afterwards, by a plating process, nickel and copper can plated.

Abstract: A service data management method. The method includes: receiving, by the NOA, a service request of a first user equipment UE, and forwarding the service request to the SP server by using the NOC, so that the SP server returns service data requested by the first UE; determining, by the NOA, that the service data has been stored in the NOA, and sending hit indication information to the NOC, so that the NOC replaces a data segment in the service data with preconfigured replacement information, where bandwidth occupied by the preconfigured replacement information is smaller than bandwidth occupied by the data segment; and determining, by the NOA, a corresponding data segment according to received replacement information, and sending the data segment, which has been stored, to the first UE. Solutions provided in embodiments of the present invention can reduce the backhaul bandwidth occupancy.

Abstract: The present Invention relates to a multi-function floating solar power generating system, which uses buoys to form buoy sets. A convergence box is used as the center for forming a cross structure, on which solar cell modules installed at an inclination angle of 10 to 15 degrees are carried. According to the present invention, a water-pumping unit below the buoy set is used for pumping the fluid. Then a spray unit is used for spraying the fluid and driving the system to rotate counterclockwise or clockwise, hence achieving the effect of tracking the sun. Alternatively, the fluid can be filtered or used for cleaning the solar cell module.

Abstract: This application discloses a process to synthesize 8-({1-(3,5-Bis-(trifluoromethyl)phenyl)-ethoxy)-methyl]-8-pheny-1.7-diaza-spiro[4.5]decan-2-one comprising reacting a compound of the Formula 27a-sulfonate with zinc in the presence of acetic acid.

Abstract: A method for fabricating a silicon-doped or boron-doped aluminum electrode is revealed. Aluminum target or aluminum paste prepared by selectively doped with silicon and/or boron is arranged at a silicon wafer with a passivation layer by physical deposition or screen printing. Then the doped aluminum layer is melted in linear or dot pattern to pass through the passivation layer and contact with the silicon wafer. Thus contact resistance between an aluminum back electrode and the silicon wafer of crystalline silicon solar cells is reduced and acceptor concentration on a surface layer of the silicon wafer is increased. Therefore the process speed is faster and the energy conversion efficiency of the solar cell is improved.

Abstract: A selection method for transmitting network packets adapted to be executed by a multiple-interface network device is provided. The multiple-interface network device includes a plurality of network interfaces. Each of the network interfaces connects to one of multiple communication networks. The selection method includes the following steps: collecting a transmission status of each of the communication networks; analyzing transmission characteristics of a predetermined number of packets of a service flow to determine a traffic pattern type of the service flow; comparing the transmission status of each of the communication networks with the transmission requirements of the traffic pattern type of the service flow to select one of the network interfaces, and using the selected network interface to transmit packets of the service flow. The service flow is constituted by packets transmitted by the network interfaces through a port and packets received by the network interfaces through the same port.

Abstract: Disclosed are hydrochloride and tosylate crystalline salt forms of (5S,8S)-8-[{(1R)-1-(3,5-Bis-(trifluoromethyl)phenyl)-ethoxy}-methyl]-8-phenyl-1,7-diazaspiro[4.5]decan-2-one, represented by Formula 1 and methods of preparing the same.

Abstract: A heterojunction solar cell with an epitaxial silicon thin film and a method for preparing the same are revealed. Low-cost upgraded metallurgical grade silicon (UMG-Si) wafers have been used as the substrates to manufacture solar cells so as to reduce the amount of high-purity silicon materials used. First an epitaxial silicon thin film is disposed over a UMG-Si wafer. Then other layers such as an amorphous silicon thin film, a transparent conductive film, etc. are arranged to form a solar cell having heterojunction with an intrinsic thin-layer (HIT) structure. Due to reduce in using high-purity silicon materials, the manufacturing cost of the heterojunction solar cell with an epitaxial silicon thin film is significantly decreased.

Abstract: The present invention relates to a liquid crystal display device, comprising: a first substrate with a first alignment layer disposed thereon; a second substrate with a second alignment layer disposed thereon; and a liquid crystal layer, comprising a negative liquid crystal composition and interposed between the first substrate and the second substrate, wherein the first alignment layer and the second alignment layer are disposed opposite to each other. In the present invention, at least one of the first alignment layer and the second alignment layer has a volume resistivity of 1.5×1012 to 9×1015 ?·cm, at least one of the first alignment layer and the second alignment layer absorbs a light having a wavelength of 240 nm to 400 nm, or a surface of at least one of the first alignment layer and the second alignment layer includes a plurality of protrusions formed by polymerizing a UV reactive monomer.

Abstract: A liquid crystal display panel includes a first substrate, a second substrate, and a liquid crystal layer. The first substrate includes a first alignment layer. The second substrate is disposed opposite to the first substrate, and includes a second alignment layer. The liquid crystal layer is disposed between the first substrate and the second substrate, and the first alignment layer and the second alignment layer are respectively contacting to the liquid crystal layer. The first alignment layer and the second alignment layer are polymerized respectively by a plurality of monomers with main chain containing benzene and mono-acrylate.

Abstract: The present invention relates to a liquid crystal display panel, comprising: a first substrate; a first alignment layer disposing on a surface of the first substrate; a second substrate opposite to the first substrate; a second alignment layer disposing on a surface of the second substrate and opposite to the first alignment layer; and a liquid crystal layer disposing between the first alignment layer and the second alignment layer; wherein, the ratio of a retardation of the first alignment layer to a retardation of the second alignment layer is 0.01-1.

Abstract: A selection method for transmitting network packets adapted to be executed by a multiple-interface network device is provided. The multiple-interface network device includes a plurality of network interfaces. Each of the network interfaces connects to one of multiple communication networks. The selection method includes the following steps: collecting a transmission status of each of the communication networks; analyzing transmission characteristics of a predetermined number of packets of a service flow to determine a traffic pattern type of the service flow; comparing the transmission status of each of the communication networks with the transmission requirements of the traffic pattern type of the service flow to select one of the network interfaces, and using the selected network interface to transmit packets of the service flow. The service flow is constituted by packets transmitted by the network interfaces through a port and packets received by the network interfaces through the same port.

Abstract: A lighting apparatus includes a wavelength converting apparatus. The wavelength converting apparatus includes a hollow tube and a wavelength converting material. The hollow tube has an accommodating chamber. The wavelength converting material is positioned in the accommodating chamber.

Abstract: The invention provides a method for fabricating a liquid crystal display, including: providing a first substrate and a second substrate, wherein the first substrate and the second substrate are disposed oppositely to each other; filling a mixed solution between the first substrate and the second substrate, wherein the mixed solution comprises a plurality of liquid crystal molecules and a plurality of monomers; performing a UV light irradiation process to the mixed solution, wherein the monomers are polymerized to form a first alignment control layer on a surface of the first substrate facing the liquid crystal molecules, and form a second alignment control layer on a surface of the second substrate facing the liquid crystal molecules, and the thickness of the first alignment control layer and that of the second alignment control layer have a ratio of about 1/2-2/1.

Abstract: A method for fabricating a silicon-doped or boron-doped aluminum electrode is revealed. Aluminum target or aluminum paste prepared by selectively doped with silicon and/or boron is arranged at a silicon wafer with a passivation layer by physical deposition or screen printing. Then the doped aluminum layer is melted in linear or dot pattern to pass through the passivation layer and contact with the silicon wafer. Thus contact resistance between an aluminum back electrode and the silicon wafer of crystalline silicon solar cells is reduced and acceptor concentration on a surface layer of the silicon wafer is increased. Therefore the process speed is faster and the energy conversion efficiency of the solar cell is improved.