Abstract: The present invention provides a lithium-based solid electrolyte excellent in ion conductivity, an inorganic solid electrolyte, a production method for a lithium-based solid electrolyte, a modified positive electrode active material, a modified negative electrode active material, an all-solid state secondary battery, an electrode sheet for an all-solid state secondary battery, a solid electrolyte sheet, and an electrode for an all-solid state secondary battery. The lithium-based solid electrolyte according to the present invention contains lithium tetraborate in a noncrystalline state, water, and a lithium salt.

Abstract: An object of the present invention is to provide an oxide solid electrolyte that is more excellent in ionic conductivity. In addition, another object of the present invention is to provide a binder, a solid electrolyte layer, an active material, an electrode, and an all-solid state secondary battery. The oxide solid electrolyte according to the present invention is an oxide solid electrolyte represented by General Formula (I). in General Formula (I), A represents at least one selected from the group consisting of Li and Na, X represents at least one selected from the group consisting of F, Cl, Br, I, S, N, H, Se, Te, C, P, Si, Al, Ga, In, Ge, As, Sb, and Sn, a represents the number of moles of each element represented by A and satisfies 1.75 < a < 2.45, b satisfies 3.75 < b <4.25, c satisfies 6.50 < c < 10.00, and d represents a total number of moles of elements represented by X and satisfies 0 < d < 0.50.

Abstract: According to the present invention, there are provided a composite body that enables the formation of a lithium ion conductor that exhibits good lithium ion conductivity by a pressurization treatment without sintering at a high temperature (about 1,000° C.) while using a lithium-containing oxide having excellent safety and stability, as well as a lithium ion conductor, an all-solid state lithium ion secondary battery, an electrode sheet for an all-solid state lithium ion secondary battery, and lithium tetraborate. The composite body according to the embodiment of the present invention contains a lithium compound having a lithium ion conductivity of 1.0×10?6 S/cm or more at 25° C. and lithium tetraborate that satisfies the following requirement 1. The requirement 1: In a reduced two-body distribution function G(r) obtained from an X-ray total scattering measurement of the lithium tetraborate, a first peak in which a peak top is located in a range where r is 1.43±0.

Abstract: Provided is a Bi-based piezoelectric material having good piezoelectric properties. The piezoelectric material includes a perovskite-type metal oxide represented by the following general formula (1): Ax(ZnjTi(1-j))l(MgkTi(1-k))mMnO3??General formula (1) where: A represents a Bi element, or one or more kinds of elements selected from the group consisting of trivalent metal elements and containing at least a Bi element; M represents at least one kind of an element selected from the group consisting of Fe, Al, Sc, Mn, Y, Ga, and Yb; and 0.9?x?1.25, 0.4?j?0.6, 0.4?k?0.6, 0.09?l?0.49, 0.19?m?0.64, 0.13?n?0.48, and l+m+n=1 are satisfied.

Abstract: The piezoelectric element includes, on a substrate: a piezoelectric film; and a pair of electrodes provided in contact with the piezoelectric film; in which the piezoelectric film contains a perovskite-type metal oxide represented by the general formula (1) as a main component: Ax(ZnjTi(1-j))l(MgkTi(1-k))mMnO3??General Formula (1) wherein the perovskite-type metal oxide is uniaxially (111)-oriented in pseudo-cubic notation in a thickness direction, of the pair of electrodes, a lower electrode provided on the substrate side is a multilayer electrode including at least a first electrode layer in contact with the substrate and a second electrode layer in contact with the piezoelectric film, and the second electrode layer is a perovskite-type metal oxide electrode which is uniaxially (111)-oriented in pseudo-cubic notation in a thickness direction.

Abstract: Provided is a Bi-based piezoelectric material having good piezoelectric properties. The piezoelectric material includes a perovskite-type metal oxide represented by the following general formula (1): Ax(ZnjTi(1-j))l(MgkTi(1-k))mMnO3??General formula (1) where: A represents a Bi element, or one or more kinds of elements selected from the group consisting of trivalent metal elements and containing at least a Bi element; M represents at least one kind of an element selected from the group consisting of Fe, Al, Sc, Mn, Y, Ga, and Yb; and 0.9?x?1.25, 0.4?j?0.6, 0.4?k?0.6, 0.09?l?0.49, 0.19?m?0.64, 0.13?n?0.48, and l+m+n=1 are satisfied.

Abstract: The present invention provides a piezoelectric element and having a piezoelectric body and a pair of electrodes being contact with the piezoelectric body, wherein the piezoelectric body consists of an ABO3 perovskite oxide in which an A-site atom consists of Bi and a B-site atom is composed of an atom of at least two types of elements.

Abstract: The present invention provides a piezoelectric element and having a piezoelectric body and a pair of electrodes being contact with the piezoelectric body, wherein the piezoelectric body consists of an ABO3 perovskite oxide in which an A-site atom consists of Bi and a B-site atom is composed of an atom of at least two types of elements.