摘要:
A positional-information acquiring unit acquires positional information relating to a position of an object or a user in a predetermined region. An extracting unit extracts a hierarchized region where the object or the user exists, based on the acquired positional information. A selection receiving unit receives a selection of a desired region from among the extracted hierarchized regions. An information acquiring unit acquires the reference information corresponding to the selected region from the region correspondence information. An output unit outputs the acquired reference information.
摘要:
To provide an apparatus that transmits information, which includes a storage unit that stores notification rule information in which transmission destination information is associated with notification type information, a reception processor that receives predetermined information from a detector that detects a mobile information storage medium attached to an object, a notification information generating unit that obtains information specified by the notification type information in the notification rule information based on the predetermined information, to generate notification information from obtained information, and a notification unit that transmits the notification information to a transmission destination specified by the transmission destination information associated with the notification type information that is used when the notification information is generated.
摘要:
Under a method to control a sliding speed in accordance with this invention, the motor is initially accelerated for a predetermined reference speed, and then during the initial acceleration period, if a rotational speed of the wire drum is of and above a given value, a difference between a rotational speed of the wire drum and a rotational speed of the motor is of and above a given value, and a rate of acceleration of the wire drum is of and above a given value, the rotational speed of the motor is reduced temporarily judging the slide door is in a state of abnormal acceleration, and then the motor is accelerated again at a lower rate than the initial acceleration toward the reference speed.
摘要:
A process for producing an oxygen reducing catalyst including a step of heat-treating, in a non-oxidizing atmosphere, a catalyst precursor including a compound (i) supplying a carbon element and a nitrogen element by heating in a non-oxidizing atmosphere, and a compound (ii) containing at least one element of iron and cobalt. Also disclosed is an oxygen reducing catalyst, a fuel cell catalyst layer including the oxygen reducing catalyst, an electrode including the fuel cell catalyst layer, a membrane-electrode assembly including the electrode and a fuel cell including the membrane-electrode assembly.
摘要:
A method for producing a fuel cell electrode catalyst including a metal element selected from aluminum, chromium, manganese, iron, cobalt, nickel, copper, strontium, yttrium, tin, tungsten, and cerium and having high catalytic activity through heat treatment at comparatively low temperature. The method including: a step (1) of mixing at least a certain metal compound (1), a nitrogen-containing organic compound (2), and a solvent to obtain a catalyst precursor solution, a step (2) of removing the solvent from the catalyst precursor solution, and a step (3) of heat-treating a solid residue, obtained in the step (2), at a temperature of 500 to 1100° C. to obtain an electrode catalyst; a portion or the entirety of the metal compound (1) being a compound containing, as the metal element, a metal element M1 selected from aluminum, chromium, manganese, iron, cobalt, nickel, copper, strontium, yttrium, tin, tungsten, and cerium.
摘要:
Provided is a process for producing a fuel cell electrode catalyst having high catalytic activity which uses a transition metal, e.g., titanium, which process comprises thermal treatment at relatively low temperature, i.e., not including thermal treatment at high temperature (calcining) step. The process for producing a fuel cell electrode catalyst comprises a step (1) of mixing at least a transition metal-containing compound, a nitrogen-containing organic compound and a solvent to provide a catalyst precursor solution; a step (2) of removing the solvent from the catalyst precursor solution; and a step (3) of thermally treating a solid residue obtained in the step (2) at a temperature of 500 to 1100° C. to provide an electrode catalyst; wherein the transition metal-containing compound is partly or wholly a compound comprising at least one transition metal element (M1) selected from the group 4 and 5 elements of the periodic table as a transition metal element.
摘要:
A method for producing a fuel cell electrode catalyst, including: a step (1) of mixing at least a metal compound (1), a nitrogen-containing organic compound (2), a compound (3) containing fluorine and at least one element A selected from the group consisting of boron, phosphorus, and sulfur, and a solvent to obtain a catalyst precursor solution, a step (2) of removing the solvent from the catalyst precursor solution, and a step (3) of heat-treating a solid residue, obtained in the step (2), at a temperature of 500 to 1100° C. to obtain an electrode catalyst; a portion or the entirety of the metal compound (1) being a compound containing, as a metal element, at least one transition metal element M1 selected from the elements of group 4 and group 5 of the periodic table; and at least one of the compounds (1), (2), and (3) having an oxygen atom.
摘要:
Provided is a fuel cell catalyst layer which has a catalytic performance equivalent to or higher than fuel cell catalyst layers containing platinum alone and which is inexpensive. The fuel cell catalyst layer of the present invention includes a metal oxycarbonitride-containing layer (I) and a platinum-containing layer (II). It is preferable that the mass ratio per unit area of the metal oxycarbonitride in the layer (I) to platinum in the layer (II) (metal oxycarbonitride/platinum) is 2 to 500. It is preferable that the mass per unit area of platinum in the layer (II) is 0.005 to 0.2 mg/cm2.
摘要翻译:本发明提供一种燃料电池用催化剂层,该催化剂层的催化性能等于或高于单独含有铂的燃料电池催化剂层,其价格便宜。 本发明的燃料电池催化剂层包括含有含碳氮氧化物的层(I)和含铂层(II)。 层(I)中的层(I)中的铂的金属碳氮氧化物的单位面积质量比(金属碳氮氧化物/铂)优选为2〜500。优选铂单位面积的质量 在层(II)中为0.005〜0.2mg / cm 2。
摘要:
A method for sealing electrodes on a semiconductor device using a sealing film which includes a resin layer having a flow within the range of 150 to 1800 μm at 80° C., or having a resin layer with a viscosity within the range of 10,000 to 100,000 Pa·s in a B-stage state at 50 to 100° C. in thermosetting viscoelasticity measurement, and containing: (A) both (a1) a high-molecular-weight component including crosslinking functional groups and having a weight-average molecular weight of 100,000 or more and a Tg within the range of −50 to 50° C. and (a2) a thermosetting component including an epoxy resin as a main component, (B) a filler having an average particle size within the range of 1 to 30 μm, and (C) a colorant.
摘要:
A transmission management apparatus includes a receiving unit that receives, from a first transmission terminal 10, a communication request for a communication with a second transmission terminal 10; a fists storage unit that stores therein terminal identification information for identifying the transmission terminals 10 and relay device identification information for identifying a relay device 30 that relays data to be transmitted and received by the first transmission terminal 10, in an associated manner; a relay device selecting unit that selects the relay device 30 associated with the terminal identification information of the first transmission terminal 10 in the first storage unit; a second storage unit that stores therein the relay device identification information and encryption necessity information in an associated manner; and an encryption necessity determining unit that determines whether encryption is needed based on the encryption necessity information associated, in the second storage unit, with the relay device 30 selected by the relay device selecting unit.