Abstract: A soil analyzing device includes: a sensor having an excitation coil and a detection coil; a measurement unit that generates an excitation signal to be input to the excitation coil, and processes a detection signal output from the detection coil; a storage unit that stores data concerning the correlation between a quantitative value of the soil fertility characteristics including CEC of two or more types of the soil having different components and an estimated value of the soil fertility characteristics including CEC found from the processed detection signal measured by the sensor and the measurement unit; and an estimation unit that estimates the soil fertility characteristics based on the detection signal generated by allowing the sensor to apply the alternating magnetic field to the soil to be analyzed and processed by the measurement unit, and by using the data stored in the storage unit.

Abstract: A soil analyzing device includes: a sensor having an excitation coil and a detection coil; a measurement unit that generates an excitation signal to be input to the excitation coil, and processes a detection signal output from the detection coil; a storage unit that stores data concerning the correlation between a quantitative value of the soil fertility characteristics including CEC of two or more types of the soil having different components and an estimated value of the soil fertility characteristics including CEC found from the processed detection signal measured by the sensor and the measurement unit; and an estimation unit that estimates the soil fertility characteristics based on the detection signal generated by allowing the sensor to apply the alternating magnetic field to the soil to be analyzed and processed by the measurement unit, and by using the data stored in the storage unit.

Abstract: A fluid flow-through device and a photochemical reactor. The fluid flow-through device (1) includes an outer tube (2) having an outer surface (21) and an inner surface (22); and an inner tube (3) having an outer surface (31) and an inner surface (32), the inner tube being disposed inside the outer tube and forming a channel of a fluid by the inner surface of the outer tube and the outer surface, with a distance between the inner surface of the outer tube and the outer surface of the inner tube in a thickness direction of the outer tube being from 100 nm to 5 mm. The photochemical reactor includes the fluid flow-through device and a photocatalyst disposed on at least one surface of the inner surface of the outer tube and the outer surface of the inner tube.

Abstract: The present invention has an object of providing the carbon fiber (or the nonwoven fabric configured of the aforementioned carbon fiber) of which the surface area, the graphitization degree, and the fiber diameter are large, high, and small, respectively, and yet of which dispersion is small. The method of producing the carbon fiber nonwoven fabric includes a dispersion liquid preparing step of preparing a dispersion liquid containing resin and pitch, an electrospinning step of producing the nonwoven fabric that is comprised of carbon fiber precursors with electrospinning from the aforementioned dispersion liquid, and a modifying step of modifying the carbon fiber precursors of the nonwoven fabric obtained in the aforementioned electrospinning step into the carbon fiber.

Abstract: An organic compound having excellent electron transport property and hole blocking property as a material for a highly efficient organic EL device, and also provide a highly efficient organic EL device using the compound. This invention relates to a compound having a triazole ring structure to which a substituted pyridyl group is bonded, represented by the following general formula (1), and to an organic electroluminescence device comprising the compound: wherein Ar1 and Ar2, R1, R2, R3, R4, R5, R6, R7, R8, R9 and R10, and m are as defined in the specification.

Abstract: An organic compound having excellent electron transport property and hole blocking property as a material for a highly efficient organic EL device, and also provide a highly efficient organic EL device using the compound. This invention relates to a compound having a triazole ring structure to which a substituted pyridyl group is bonded, represented by the following general formula (1), and to an organic electroluminescence device comprising the compound: wherein Ar1 and Ar2, R1, R2, R3, R4, R5, R6, R7, R8, R9 and R10, and m are as defined in the specification.

Abstract: There is provided a fluorine storage material comprising a novel fluorinated carbon nanohorn, which stores a large amount of fluorine per its unit mass, withstand repeated use for fluorine storage, and enables a high purity fluorine gas to be taken out by a safe and efficient method, and also there is provided a method of taking out a fluorine gas by applying heat to the fluorine storage material or placing the fluorine storage material in a pressure-reduced atmosphere.