Abstract: A non-transitory computer-readable storage medium storing a model generation program that causes a computer to execute a process includes generating a plurality of first coefficient matrixes representing a relationship between a first observation matrix that has a feature and a characteristic vector that has a characteristic value of each of the plurality by a regression coefficient; generating a histogram in which a plurality of total regression coefficients obtained by totaling the regression coefficient included in the plurality of first coefficient matrixes for each of the plurality of elements is arranged in order of element in the first observation matrix; generating a second observation matrix including a second element acquired by combining a plurality of first elements that corresponds to the adjacent total regression coefficients of nonzero in the histogram into one; and generating a second coefficient matrix representing a relationship between the second observation matrix and the characteristic ve

Abstract: A nickel-hydrogen secondary battery includes an electrode group comprising a separator, a positive electrode, and a negative electrode, and the positive electrode contains a positive electrode active material including a base particle comprising a nickel hydroxide particle containing Mn in solid solution and a conductive layer comprising a Co compound and covering the surface of the base particle, wherein the X-ray absorption edge energy of Mn detected within 6500 to 6600 eV by measurement with an XAFS method is 6548 eV or higher.

Abstract: An X-ray diffraction analysis method includes, placing a sample on a sample stage and acquiring a two-dimensional X-ray diffraction image from the sample using a two-dimensional detection circuit by irradiating the sample with an X-ray in a state where an X-ray irradiation angle is fixed, specifying a collection of diffraction spots having a predetermined range of diffraction angles from the X-ray diffraction image as a diffraction spot group, counting the number of diffraction spots having predetermined intensity or more in the diffraction spot group, grouping the diffraction spot group based on the number of diffraction spots, and identifying a crystal phase contained in the sample based on a diffraction angle of the grouped diffraction spot group.

Abstract: A nickel-hydrogen secondary battery includes an electrode group comprising a separator, a positive electrode, and a negative electrode, and the positive electrode contains a positive electrode active material including a base particle comprising a nickel hydroxide particle containing Mn in solid solution and a conductive layer comprising a Co compound and covering the surface of the base particle, wherein the X-ray absorption edge energy of Mn detected within 6500 to 6600 eV by measurement with an XAFS method is 6548 eV or higher.

Abstract: A nickel-hydrogen secondary battery includes an electrode group including a separator, a positive electrode and a negative electrode, the positive electrode includes a positive electrode active material, the positive electrode active material includes a composite particle including a compound of Co and a compound of Ni, and the ratio R represented by A/B satisfies a relationship of R?0.3, when the amount of jumping in the X-ray absorption fine structure spectrum of the Co in 7600 to 7800 eV and the amount of jumping in the X-ray absorption fine structure spectrum of the Ni in 8300 to 8500 eV obtained by measurement according to a conversion electron yield method are defined as A and B, respectively.

Abstract: An X-ray diffraction analysis method includes, placing a sample on a sample stage and acquiring a two-dimensional X-ray diffraction image from the sample using a two-dimensional detection circuit by irradiating the sample with an X-ray in a state where an X-ray irradiation angle is fixed, specifying a collection of diffraction spots having a predetermined range of diffraction angles from the X-ray diffraction image as a diffraction spot group, counting the number of diffraction spots having predetermined intensity or more in the diffraction spot group, grouping the diffraction spot group based on the number of diffraction spots, and identifying a crystal phase contained in the sample based on a diffraction angle of the grouped diffraction spot group.

Abstract: A nickel-hydrogen secondary battery includes an electrode group including a separator, a positive electrode, and a negative electrode, and the positive electrode includes a positive electrode active material particle including a base particle and a surface layer covering the surface of the base particle, and the base particle contains nickel hydroxide, and the surface layer contains a trivalent or higher-valent cobalt compound and Co3O4.

Abstract: A nickel-hydrogen secondary battery includes an electrode group comprising a separator, a positive electrode, and a negative electrode, and the positive electrode contains a positive electrode active material including a base particle comprising a nickel hydroxide particle containing Mn in solid solution and a conductive layer comprising a Co compound and covering the surface of the base particle, wherein the X-ray absorption edge energy of Mn detected within 6500 to 6600 eV by measurement with an XAFS method is 6548 eV or higher.

Abstract: A nickel-hydrogen secondary battery includes an electrode group including a separator, a positive electrode and a negative electrode, the positive electrode includes a positive electrode active material, the positive electrode active material includes a composite particle including a compound of Co and a compound of Ni, and the ratio R represented by A/B satisfies a relationship of R?0.3, when the amount of jumping in the X-ray absorption fine structure spectrum of the Co in 7600 to 7800 eV and the amount of jumping in the X-ray absorption fine structure spectrum of the Ni in 8300 to 8500 eV obtained by measurement according to a conversion electron yield method are defined as A and B, respectively.

Abstract: In order to form a photoelectric conversion layer of a photoelectric conversion element, mixed liquid including poly-[N-9?-heptadecanyl-2,7-carbazole-alt-5,5-(4?,7?-di-2-thienyl2?,1?,3?-benzothiadiazle)] as a p-type organic semiconductor material and a fullerene derivative as an n-type organic semiconductor material, which configure a bulk heterojunction are applied and dried. The dried substance is exposed in an atmosphere including vapor of a solvent that dissolves the p-type organic semiconductor material preferentially to the n-type organic semiconductor material.

Abstract: A photoelectric conversion device includes a positive electrode, a negative electrode, and a photoelectric conversion layer including a p-type organic semiconductor material and an n-type organic semiconductor material that configure a bulk heterojunction. The photoelectric conversion layer includes an amorphous polymer compound including a carbazole ring, a fluorene ring or a cyclopentadithiopene ring in a main chain as the p-type organic semiconductor material, and includes an amorphous fullerene derivative as the n-type organic semiconductor material. The photoelectric conversion layer has a diffraction peak corresponding to a plane spacing d=1.6 nm to 2.0 nm in an X-ray diffraction profile.