(JP2017115407) PROBLEM TO BE SOLVED: Even under high temperature environment, such as rough surface without causing cracking mortar, good workability of polymer cement mortar to provide a construction method. SOLUTION: Construction and polymer cement mortar, then the surface of the mortar, the mortar compounded polymer emulsion is coated after finishing of the iron. The polymer is, styrene-butadiene rubber, polyacrylic acid ester and vinyl acetate copolymer of ethylene - a polymer selected from a polymer as the active ingredient. SELECTED DRAWING: FIGs 1
(JP2017113980) PROBLEM TO BE SOLVED: Disposed on the object to an object to adjust the position of the decorative sheet is facilitated and repositioning. SOLUTION: Decorative sheet 1 is, the base layer 2 and, the base layer 2 surface 2a transconductors and laminated, pressure-sensitive adhesive layer having an adhesive 3 and, is provided. Adhesive layer 3 is, the base layer 2 surface 2a major surface opposite 3a a plurality of protrusions provided 10 having. Projections 10 is, tip 12 top of the comb 12a having. Adhesive layer 3 of 20 °C shear storage modulus is in, 2.0x105 or more. SELECTED DRAWING: FlG 4
(JP2017113709) PROBLEM TO BE SOLVED: Absorbing ability of the surfactant, the surfactant has an excellent ability to retain its object to provide a carrying agent and. SOLUTION: Absorbing capability surfactant 10 times or more surfactants in a carrier agent. SELECTED DRAWING: Undetected
(US9754780) A manufacturing method of a semiconductor device includes generating hydrogen radicals by plasma excitation of hydrogen gas and exposing a surface of a substrate on which silicon and metal are exposed to a reducing atmosphere created with the hydrogen radicals, and generating hydrogen radicals and hydroxyl radicals by plasma excitation of a mixed gas of hydrogen gas and oxygen-containing gas and oxidizing the silicon exposed on the surface of the substrate by exposing the surface of the substrate to the hydrogen radicals and hydroxyl radicals to obtain the substrate on which the metal and oxidized silicon are formed.
(US9744611) A method for recovering solder from solder coated scrap pieces includes a step of containing a quantity of solder coated scrap pieces within a centrifuge receptacle of a first centrifuge. The centrifuge receptacle has perforation holes and is rotatably mounted about a first centrifuge axis. A solder collection container surrounds the centrifuge receptacle. The method further includes the steps of heating the solder coated scrap pieces and melting the solder thereon with a heater surrounding the solder collection container and with a drive system, rotating the centrifuge receptacle while the first centrifuge axis is in about a horizontal position at a low speed and tumbling the scrap pieces along a longitudinal length of the centrifuge receptacle, and later rotating the centrifuge receptacle at a high speed for centrifugally extracting molten solder from the centrifuge receptacle, radially outwardly through the perforation holes into the solder collection container.
(US20160082113) A method of treating B cell malignancies or a method for preparing compositions for treating B cell malignancies wherein administration of a specific binding cytoreductive agent is followed by immunization with an autologous Id protein. The two treatments may be sequential, where the administration of the specific binding cytoreductive agent is completed before the administration of the autologous Id protein, or the administration of the specific binding cytoreductive agent and the immunization with an autologous Id protein may occur in an overlapping time course.
(US20160082005) In its several embodiments, this invention discloses a pharmaceutical formulation comprising at least one antineoplastic agent or a pharmaceutically acceptable salt thereof, and at least one dissolution enhancing agent sufficient to substantially dissolve said at least one antineoplastic agent in at least one aqueous diluent, wherein said dissolution enhancing agent is urea, L-histidine, L-threonine, L-asparagine, L-serine, L-glutamine or mixtures thereof; a lyophilized powder comprising said pharmaceutical formulation, and articles of manufacture thereof.
(US20160081888) The invention provides an infiltrant for dental application that comprises crosslinking monomers. In accordance with the invention the infiltrant has a penetration coefficient PC>50 cm/s, and the crosslinking monomers, based on the total mass of monomers, comprise at least 5% by weight of crosslinking monomers having at least three polymerizable groups and not more than 95% by weight of crosslinking monomers having two polymerizable groups.
公开号：IN4007/KOLNP/2015 A 2016-03-11 [IN2015KN04007]
TANAKA Yuuji;HORIUCHI Tamotsu
(IN2015KN04007) A photoelectric conversion element, including: an electron transporting material; and a porphyrin compound represented by General Formula (1) or (2), wherein the electron transporting material is coated with the porphyrin compound: where R1 and R2 each independently denote an aromatic hydrocarbon group which has 6-20 carbon atoms and may have an alkyl or alkoxy group as substituent, R1 and R2 may be bonded to form ring structure A1, X denotes a monovalent group expressed by Structural Formula (I), (II) or (III), and Y denotes a phenyl group which may have an alkyl or alkoxy group as a substituent, where R denotes an aromatic hydrocarbon group which has 6-20 carbon atoms and may have an alkyl or alkoxy group as substituent, X denotes a monovalent group expressed by Structural Formula (I), (II) or (III), and Y denotes a phenyl group which may have an alkyl or alkoxy group as substituent.