Abstract: An electrode according to an embodiment includes a support, and a catalyst layer including a sheet layer and a gap layer stacked, alternately on the support. The catalyst layer includes noble oxide and non-noble oxide. 4 [wt %] or more and 8 [wt %] or less of metal elements included in the catalyst layer is non-noble metal. An average thickness of the gap layer is 6 [nm] or more and 50 [nm] or less.

Abstract: An electrode according to an embodiment includes a support and a catalyst layer including a sheet layer and a gap layer stacked alternately. Cracks or/and holes exist in the catalyst layer.

Abstract: A manufacturing method includes a first repeating step of irradiating a base material with a pulse laser, having a spot diameter S, while relatively moving a laser head and the base material in a first direction, moving the laser head by a predetermined pitch width P in a second direction that intersects the first direction, and repeating irradiation by the pulse laser along the first direction and movement of the laser head in the second direction, and a second repeating step of irradiating the base material with the pulse laser while relatively moving the laser head and the base material in the second direction, moving the laser head by the pitch width in the first direction, and repeating irradiation by the pulse laser along the second direction and movement of the laser head in the first direction, wherein S<P<100 ?m.

Abstract: A method is provided in which with respect to an optical detection apparatus including an optical detection unit and a temperature control unit, whether optical signal detection and temperature control are performed accurately, i.e. the performance thereof, can be verified simply with high reliability. With respect to an optical detection apparatus including an optical detection unit for detecting an optical signal of a sample and a temperature control unit for controlling temperature of the sample, the optical signal detection performance and temperature control performance are verified by the following method. First, a standard sample containing a nucleic acid sequence and a strand complementary thereto that have a known optical signal intensity and Tm value is provided, the temperature of the standard sample is increased or decreased with the temperature control unit, and optical signal intensity of the standard sample is measured with the detection unit.

Abstract: Primer sets for amplifying target regions containing sites to be detected in the CYP2C19 gene by a gene amplification method are provided, wherein the primer sets can amplify the regions specifically. Two pairs of primer sets are used including forward primers consisting of the base sequences of SEQ ID NOs: 12 and 32 as well as reverse primers consisting of the base sequences of SEQ ID NOs: 22 and 48, respectively. The use of these primer sets makes it possible to amplify two target regions including parts where two types of polymorphisms (CYP2C19*2 and CYP2C19*3) of the CYP2C19 gene are generated, respectively, in the same reaction solution at the same time.

Abstract: A method is provided in which with respect to an optical detection apparatus including an optical detection unit and a temperature control unit, whether optical signal detection and temperature control are performed accurately, i.e. the performance thereof, can be verified simply with high reliability. With respect to an optical detection apparatus including an optical detection unit for detecting an optical signal of a sample and a temperature control unit for controlling temperature of the sample, the optical signal detection performance and temperature control performance are verified by the following method. First, a standard sample containing a nucleic acid sequence and a strand complementary thereto that have a known optical signal intensity and Tm value is provided, the temperature of the standard sample is increased or decreased with the temperature control unit, and optical signal intensity of the standard sample is measured with the detection unit.