Abstract: An electrode active material for an electrochemical element of the present invention is a monoclinic niobium complex oxide, and Db/Da is 1.5 or more, where Da is a crystallite size in the a-axis direction, and Db is a crystallite size in the b-axis direction. An electrode material for an electrochemical element of the present invention contains the electrode active material for an electrochemical element of the present invention. An electrode for an electrochemical element of the present invention contains the electrode active material for an electrochemical element of the present invention or the electrode material for an electrochemical element of the present invention. In an electrochemical element of the present invention, either one of a positive electrode and a negative electrode is the electrode for an electrochemical element of the present invention. A movable body of the present invention includes the electrochemical element of the present invention.

Abstract: Provided is an electrochemical element having excellent load characteristics and charge-discharge cycle characteristics, an electrode active material that can constitute the electrochemical element, a method for manufacturing the electrode active material, an electrode material, an electrode, and a movable body including the electrochemical element. The electrode active material for an electrochemical element according to the present invention includes an oxide that has a monoclinic crystal structure and satisfies the following general formula (1): AyM1?Alx??Nb12?x?zM2zO29?? (1). In the general formula (1), A is at least one element selected from Li and Na, M1 is at least one element selected from the group consisting of Fe, Mn, Zn Cu, Ag, Mg Ca, Sr, Ba, Co, Eu, Y, Bi, La, Ce, Nd, Sm, and Gd, M2 is specific element, awl x, y, z, ?, and ? satisfy 0<x?1.1, 0?y?24, 0?z?2, ?1???2, and 0<??0.4x.

Abstract: An all-solid-state battery having excellent load characteristics, and an electrode for an all-solid-state battery for forming the all-solid-state battery are provided. It relates to Goals 12, 3, 7, and 11 of Sustainable Development Goals (SDGs). The electrode for an all-solid-state battery includes a molded body of a mixture containing an active material-containing electrode material, a solid electrolyte, and a conductive assistant. The electrode material is in the form of a composite particle having a layer containing a solid electrolyte A1 or solid electrolyte A2 that contains certain elements on its surface. The mixture molded body includes a solid electrolyte B1 or solid electrolyte B2 that contains certain elements between the composite particles. The compositions of the solid electrolyte A1 and the solid electrolyte B1 satisfy a certain relationship, or the composition of the solid electrolyte A2 and the composition of the solid electrolyte B2 satisfy a certain relationship.

Abstract: There is provided a method for easily determining an undifferentiated state of pluripotent stem cells without relying on the judgment of a skilled technician. The method includes: a step of evaluating an undifferentiated state of pluripotent stem cells based on a time-dependent change in a variation value of an extracellular metabolite contained in a culture medium in which the pluripotent stem cells are cultured, wherein the extracellular metabolite is at least one selected from a group consisting of L-glutamic acid, L-alanine and ammonia.

Abstract: The present invention is a method in which stem cells for which a differentiation state is unknown or cells that are differentiation-induced from the stem cells are use as test cells, and a differentiation state of the test cells is evaluated based on an abundance of a predetermined indicator substance in a culture supernatant of the test cells. The indicator substance is at least one compound selected from a group that consists of ornithine, 2-aminoadipic acid, deoxycytidine, glutamic acid, tryptophan, asparagine, alanine, cystine, hypoxanthine, uridine, aspartic acid, arginine, 2-hydroxybutyric acid, 2-hydroxyisovaleric acid, 3-hydroxyisovaleric acid, urea, 4-hydroxybenzoic acid, 4-aminobenzoic acid, ribonic acid, kynurenine, crystathionine, threonic acid, pyruvic acid, putrescine, ascorbic acid, riboflavin, serine, cysteine, orotic acid, and citric acid.

Abstract: An extreme ultraviolet light generating system may include: a chamber; a target feeding unit configured to feed a target into the chamber; a drive laser unit configured to irradiate the target with a drive pulsed laser light beam to generate a plasma to thereby generate extreme ultraviolet light; a probe laser unit configured to irradiate the plasma with a probe pulsed laser light beam to thereby generate Thomson scattered light; a spectrometer configured to measure a spectrum waveform of an ionic term in the Thomson scattered light; and a wavelength filter disposed upstream of the spectrometer, and configured to suppress light with a predetermined wavelength from entering the spectrometer. The light with the predetermined wavelength may be part of light containing the Thomson scattered light, and the predetermined wavelength may be substantially same as a wavelength of the probe pulsed laser light beam.

Abstract: There is provided a method for easily determining an undifferentiated state of pluripotent stem cells without relying on the judgment of a skilled technician. The method includes: a step of evaluating an undifferentiated state of pluripotent stem cells based on a time-dependent change in a variation value of an extracellular metabolite contained in a culture medium in which the pluripotent stem cells are cultured, wherein the extracellular metabolite is at least one selected from a group consisting of L-glutamic acid, L-alanine and ammonia.

Abstract: An image forming apparatus is provided with a measuring device, which measures multi-colors in a multi-color toner image formed on a recording sheet that is output from the image forming apparatus. Based on the measured multi-colors, the image forming apparatus estimates an output value of each one of primary color toner images that constitute the multi-color toner image, and corrects an image forming condition of each one of the primary color toner images based on comparison between the estimated output value of the primary color toner image and a target value of the primary color toner image.

Abstract: An image forming apparatus is provided with a measuring device, which measures multi-colors in a multi-color toner image formed on a recording sheet that is output from the image forming apparatus. Based on the measured multi-colors, the image forming apparatus estimates an output value of each one of primary color toner images that constitute the multi-color toner image, and corrects an image forming condition of each one of the primary color toner images based on comparison between the estimated output value of the primary color toner image and a target value of the primary color toner image.