摘要:
The present invention provides a ceramic material allowing a pellet having higher density and satisfactory Li ion conduction to be obtained. The ceramic material contains Li, La, Zr, Al and O and has a garnet-type or garnet-like crystal structure, the ratio of the number of moles of Li with respect to La being 2.0 or greater to 2.5 or lower.
摘要:
A solid electrolyte structure containing a porous solid electrolyte is prepared. At least the porous solid electrolyte of the solid electrolyte structure is immersed in a first sol solution containing at least a precursor of an electrode active material as a solute. Then, the first sol solution, in which the porous solid electrolyte is immersed, is heated. A solvent of the first sol solution is evaporated by the heating, whereby a pore of the porous solid electrolyte is filled with a high concentration (a large amount) of the electrode active material precursor.
摘要:
The present invention provides a ceramic material capable of demonstrating compactness and Li ion conductivity to an extent that enables the use of the ceramic material as a solid-state electrolyte material for a lithium secondary battery, or the like. A ceramic material containing Li, La, Zr, Nb and/or Ta, as well as O and having a garnet-type or garnet-like crystal structure is used.
摘要:
A ceramic material that can exhibit sufficient compactness and lithium (Li) conductivity to enable the use thereof as a solid electrolyte material for a lithium secondary battery and the like is provided. The ceramic material contains aluminum (Al) and has a garnet-type crystal structure or a garnet-like crystal structure containing lithium (Li), lanthanum (La), zirconium (Zr) and oxygen (O).
摘要:
The present invention provides a ceramic material capable of demonstrating compactness and Li ion conductivity to an extent that enables the use of the ceramic material as a solid-state electrolyte material for a lithium secondary battery, or the like. A ceramic material containing Li, La, Zr, Nb and/or Ta, as well as O and having a garnet-type or garnet-like crystal structure is used.
摘要:
A solid electrolyte structure (1) for all-solid-state batteries includes a plate-like dense body (2) formed of a ceramic that includes a solid electrolyte, and a porous layer (3) formed of a ceramic that includes a solid electrolyte that is the same as or different from the solid electrolyte of the dense body (2), the porous layer (3) being integrally formed on at least one surface of the dense body (2) by firing. The solid electrolyte structure can reduce the contact resistance at the interface between the solid electrolyte and an electrode.
摘要:
An all-solid-state cell has a fired solid electrolyte body, a first electrode layer integrally formed on one surface of the fired solid electrolyte body by mixing and firing an electrode active material and a solid electrolyte, and a second electrode layer integrally formed on the other surface of the fired solid electrolyte body by mixing and firing an electrode active material and a solid electrolyte. The first and the second electrode layers are formed by mixing and firing the electrode active material and the amorphous solid electrolyte, which satisfy the relation Ty>Tz (wherein Ty is a temperature at which the capacity of the electrode active material is lowered by reaction between the electrode active material and the solid electrolyte material, and Tz is a temperature at which the solid electrolyte material is shrunk by firing).
摘要:
A lever type connector in which a connector holder is reliably fit into a receptacle holder to prevent a half-fitting is provided. In the lever type connector, a restricting recess is provided on the front side of an arm plate of a lever, and below a multiple force recess. When a connector holder is inserted into the receptacle, a rear surface of the restricting recess abuts to a rear surface of a receiving portion to restrict rotation of the lever. Then, when the connector holder is pushed down to the standby position where the receiving portion is inserted into the multiple force recess, the restricting recess is away from the rear surface of the receiving portion, so that restriction of rotation of the lever is cancelled.
摘要:
A lever connector is provided where fitting of a connector holder is reliably performed by rotation of a lever, so that workability is excellent. In a connector holder 2, a provisionally-retaining claw 17 is provided to be elastically held by a first retaining portion 14 at a predetermined rotating position in order to restrict rotation of the lever 5. In a receptacle connector 3, a pressing projection 23 is provided to move the provisionally-retaining claw 17 to a retracted position where the provisionally-retaining claw 17 is not held by the lever 5 in a state that the connector holder 2 is at a standby position, so that restriction of rotation of the lever 5 is cancelled. On the other hand, an abutting surface of the first retaining position 14 of the lever 5 is of a mountain-like shape including a restricting surface 19 and a guiding surface 20.
摘要:
A lever connector is provided where fitting of a connector holder is reliably performed by rotation of a lever, so that workability is excellent. In a connector holder 2, a provisionally-retaining claw 17 is provided to be elastically held by a first retaining portion 14 at a predetermined rotating position in order to restrict rotation of the lever 5. In a receptacle connector 3, a pressing projection 23 is provided to move the provisionally-retaining claw 17 to a retracted position where the provisionally-retaining claw 17 is not held by the lever 5 in a state that the connector holder 2 is at a standby position, so that restriction of rotation of the lever 5 is cancelled. On the other hand, an abutting surface of the first retaining position 14 of the lever 5 is of a mountain-like shape including a restricting surface 19 and a guiding surface 20.