Abstract: Detection of detection target substances at a sensor portion is expedited and the efficiency thereof is improved in biological substance analysis, to enable accelerated analysis with high sensitivity. A biological substance analyzing cell equipped with a reaction chamber having a sample supply space, an acoustic matching layer which is provided at a predetermined region of an inner wall of the reaction chamber that faces another inner wall, and a sensor portion provided within the reaction chamber is employed. Ultrasonic waves are emitted such that a standing wave are generated between the acoustic matching layer and the inner wall of the reaction chamber that faces the acoustic matching layer. The detection target substance is concentrated by the capturing forces of the standing waves, and the concentrated detection target substance is detected at the sensor portion.

Abstract: A solar cell of a module type in which thin-film solar cells having a light absorbing layer made of a compound semiconductor are joined in series on a single substrate. The substrate includes a base made of a ferritic stainless steel, an aluminum layer formed on at least one surface of the base, and an insulation layer having a porous structure obtained by anodizing a surface of the aluminum layer. The insulation layer exhibits compressive stress at room temperature.

Abstract: A metal substrate with an insulation layer includes a metal substrate having at least an aluminum base and an insulation layer formed on said aluminum base of said metal substrate. The insulation layer is a porous type anodized film of aluminum. The anodized film includes a barrier layer portion and a porous layer portion, and at least the porous layer portion has compressive strain at room temperature. a magnitude of the strain ranges from 0.005% to 0.25%. The anodized film has a thickness of 3 micrometers to 20 micrometers.

Abstract: An ultrasonic probe, in which a thick adhesive layer is not formed directly under the piezoelectric element and the adhesive is prevented from covering an electrode portion of a side face of the piezoelectric element. The ultrasonic probe includes: a main backing material having a curved surface; a flexible auxiliary member having a first surface bonded onto the curved surface of the main backing material by using an adhesive; and an array of piezoelectric elements arranged on a second surface of the flexible auxiliary member, wherein at least one of side edges of a bonding surface between the flexible auxiliary member and the main backing material is formed with a recessed area for allowing the adhesive, which has protruded when bonding the flexible auxiliary member onto the main backing material by using the adhesive, to escape thereinto.

Abstract: Detection of detection target substances at a sensor portion is expedited and the efficiency thereof is improved in biological substance analysis, to enable accelerated analysis with high sensitivity. A biological substance analyzing cell equipped with a reaction chamber having a sample supply space, an acoustic matching layer which is provided at a predetermined region of an inner wall of the reaction chamber that faces another inner wall, and a sensor portion provided within the reaction chamber is employed. Ultrasonic waves are emitted such that a standing wave are generated between the acoustic matching layer and the inner wall of the reaction chamber that faces the acoustic matching layer. The detection target substance is concentrated by the capturing forces of the standing waves, and the concentrated detection target substance is detected at the sensor portion.

Abstract: A metal substrate with an insulation layer has a metallic substrate having at least an aluminum base, and an insulation layer formed on the aluminum base of the metallic substrate. The insulation layer is a anodized film of aluminum that has a porous structure having plural pores and a Martens hardness of 1000 N/mm2 to 3500 N/mm2. A ratio of an average pore size of the plural pores to an average wall thickness of the plural pores ranges from 0.2 to 0.5.

Abstract: A substrate for selenium compound semiconductor has at least a steel base and an aluminum base. The aluminum base is arranged on one end in a direction of lamination of the steel base and the aluminum base, the steel base is arranged on the other end in the direction. An alloy layer having a thickness of from 0.01 ?m to 10 ?m is formed between the steel base and the aluminum base. A thermal oxide film having a thickness of 6 nm or more is formed on a surface of the steel base opposite to the aluminum base.

Abstract: In an ultrasonic probe in which individual wires led out from multilayered piezoelectric elements are arranged in a staggered manner, short-circuit is prevented. Each of the elements includes: a multilayered structure in which piezoelectric material layers and at least one internal electrode are stacked; first and second flat electrodes; first and second side electrodes; an insulating film formed at a second side surface side of the multilayered structure; a wiring member bonded to the first flat electrode on the one end of the multilayered structure by using a conducting adhesive material; and the wiring member is provided at the second side surface side of the multilayered structure and the insulating film electrically separates the second side electrode and the conducting adhesive material in a first element, and the wiring member is provided at a first side surface side of the multilayered structure in a second element.

Abstract: An ultrasonic probe, in which a thick adhesive layer is not formed directly under the piezoelectric element and the adhesive is prevented from covering an electrode portion of a side face of the piezoelectric element. The ultrasonic probe includes: a main backing material having a curved surface; a flexible auxiliary member having a first surface bonded onto the curved surface of the main backing material by using an adhesive; and an array of piezoelectric elements arranged on a second surface of the flexible auxiliary member, wherein at least one of side edges of a bonding surface between the flexible auxiliary member and the main backing material is formed with a recessed area for allowing the adhesive, which has protruded when bonding the flexible auxiliary member onto the main backing material by using the adhesive, to escape thereinto.

Abstract: In an ultrasonic probe in which individual wires led out from multilayered piezoelectric elements are arranged in a staggered manner, short-circuit is prevented. Each of the elements includes: a multilayered structure in which piezoelectric material layers and at least one internal electrode are stacked; first and second flat electrodes; first and second side electrodes; an insulating film formed at a second side surface side of the multilayered structure; a wiring member bonded to the first flat electrode on the one end of the multilayered structure by using a conducting adhesive material; and the wiring member is provided at the second side surface side of the multilayered structure and the insulating film electrically separates the second side electrode and the conducting adhesive material in a first element, and the wiring member is provided at a first side surface side of the multilayered structure in a second element.