Abstract: A chip component 10 comprises: an insulating substrate 1 on which a resistor 3 serving as a functional element is formed; a pair of internal electrodes (front electrodes 2, end surface electrodes 6, and back electrodes 5) that is formed to cover both end portions of the insulating substrate 1 and connected to the resistor 3; a barrier layer 8 that is formed on a surface of each of the internal electrodes and mainly composed of nickel; and an external connection layer 9 that is formed on a surface of the barrier layer 8 and mainly composed of tin, and the barrier layer 8 is composed of alloy plating (Ni—P) including nickel and phosphorus, which is formed by electrolytic plating, and a content rate of phosphorus in the alloy plating of an inner region is made different from that of an outer region so that at least the inner region of the barrier layer 8 has magnetic properties.

Abstract: A parallel driving device that drives parallel-connected semiconductor elements includes a control unit and a gate driving circuit. The control unit detects a temperature difference between the semiconductor elements on the basis of detected values by temperature sensors that detect temperatures of the individual semiconductor elements. The control unit generates a control signal for changing the timing at which to turn on a first semiconductor element specified from the semiconductor elements on the basis of the temperature difference. The gate driving circuit generates a first driving signal for driving the semiconductor elements, and generates a second driving signal that is the first driving signal delayed on the basis of the control signal, and applies the second driving signal to the first semiconductor element.

Abstract: The present invention can provide a controlled drug release carrier formed by using a silk fibroin porous material, which has high drug controlled release rate, controllability of the drug controlled release speed, high strength, easy handleability, skin care properties from high biocompatibility, high water retentivity, and capability of efficiently retaining a drug.

Abstract: A substrate for feeding cells and/or tissues which is composed of a porous body having a thin film surface and a porous surface and which can be used in the regenerative medical techniques. A cell/tissue feeder is produced by cultivating tissues on the porous surface of the porous body. Cells are seeded on the porous surface of the body, followed by the cultivation of the cells to thus form and/or regenerate tissues. An aqueous solution of silk proteins, to which a water-soluble organic solvent is added, is introduced into a mold whose bottom or top surface is surface-roughened, followed by freezing the aqueous solution and then thawing the frozen aqueous solution to form a porous body having a thin film surface and a porous surface.

Abstract: A method for producing a porous silk fibroin material, containing steps of: freezing a silk fibroin solution containing a silk fibroin aqueous solution having an aliphatic carboxylic acid added thereto; and then melting the frozen solution, thereby providing a porous material. A method for producing a porous silk fibroin material having excellent mechanical characteristics may be provided.

Abstract: The present invention can provide a controlled drug release carrier formed by using a silk fibroin porous material, which has high drug controlled release rate, controllability of the drug controlled release speed, high strength, easy handleability, skin care properties from high biocompatibility, high water retentivity, and capability of efficiently retaining a drug.

Abstract: A method for producing a porous silk fibroin material, containing steps of: freezing a silk fibroin solution containing a silk fibroin aqueous solution having an aliphatic carboxylic acid added thereto; and then melting the frozen solution, thereby providing a porous material. A method for producing a porous silk fibroin material having excellent mechanical characteristics may be provided.

Abstract: A substrate for feeding cells and/or tissues which is composed of a porous body having a thin film surface and a porous surface and which can be used in the regenerative medical techniques. A cell/tissue feeder is produced by cultivating tissues on the porous surface of the porous body. Cells are seeded on the porous surface of the body, followed by the cultivation of the cells to thus form and/or regenerate tissues. An aqueous solution of silk proteins, to which a water-soluble organic solvent is added, is introduced into a mold whose bottom or top surface is surface-roughened, followed by freezing the aqueous solution and then thawing the frozen aqueous solution to form a porous body having a thin film surface and a porous surface.

Abstract: This invention provides a method for producing a dielectric substance having excellent dielectric properties and being biodegradable, such method comprising subjecting silk protein to molding.