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COMPOSITE OXIDE POWDER, METHOD OF PRODUCING COMPOSITE OXIDE POWDER, METHOD OF PRODUCING SOLID ELECTROLYTE BODY, AND METHOD OF PRODUCING SECONDARY LITHIUM ION BATTERY
To provide composite oxide powder from which a dense solid electrolyte body of high ion conductivity can be produced, and a method of producing the same.SOLUTION: The composite oxide powder is constituted of particles comprising lithium (Li), lanthanum (La), zirconium (Zr) and oxygen and having a cubic garnet type crystal structure, which composite oxide powder has a 50% diameter (D50) in a volume particle size distribution of not larger than 1000 nm and contains a pyrochlore phase in a ratio of not higher than 10 mass%.SELECTED DRAWING: Figure 7
【課題】緻密で高イオン伝導度の固体電解質体を作製することができる複合酸化物粉末及びその製造方法を提供すること。【解決手段】リチウム(Li)とランタン(La)とジルコニウム(Zr)と酸素(O)とを含み、立方晶ガーネット型結晶構造を有する粒子で構成される複合酸化物粉末であって、前記複合酸化物粉末は、その体積粒度分布における50%径(D50)が1000nm以下であり、且つパイロクロア相の含有割合が10質量%以下である複合酸化物粉末。【選択図】図7
COMPOSITE OXIDE POWDER, METHOD OF PRODUCING COMPOSITE OXIDE POWDER, METHOD OF PRODUCING SOLID ELECTROLYTE BODY, AND METHOD OF PRODUCING SECONDARY LITHIUM ION BATTERY
To provide composite oxide powder from which a dense solid electrolyte body of high ion conductivity can be produced, and a method of producing the same.SOLUTION: The composite oxide powder is constituted of particles comprising lithium (Li), lanthanum (La), zirconium (Zr) and oxygen and having a cubic garnet type crystal structure, which composite oxide powder has a 50% diameter (D50) in a volume particle size distribution of not larger than 1000 nm and contains a pyrochlore phase in a ratio of not higher than 10 mass%.SELECTED DRAWING: Figure 7
【課題】緻密で高イオン伝導度の固体電解質体を作製することができる複合酸化物粉末及びその製造方法を提供すること。【解決手段】リチウム(Li)とランタン(La)とジルコニウム(Zr)と酸素(O)とを含み、立方晶ガーネット型結晶構造を有する粒子で構成される複合酸化物粉末であって、前記複合酸化物粉末は、その体積粒度分布における50%径(D50)が1000nm以下であり、且つパイロクロア相の含有割合が10質量%以下である複合酸化物粉末。【選択図】図7
COMPOSITE OXIDE POWDER, METHOD OF PRODUCING COMPOSITE OXIDE POWDER, METHOD OF PRODUCING SOLID ELECTROLYTE BODY, AND METHOD OF PRODUCING SECONDARY LITHIUM ION BATTERY
複合酸化物粉末、複合酸化物粉末の製造方法、固体電解質体の製造方法、並びにリチウムイオン二次電池の製造方法
YOSHIOKA HIDEKI (author) / MORI RYOHEI (author)
2021-04-08
Patent
Electronic Resource
Japanese
IPC:
C01G
Verbindungen der von den Unterklassen C01D oder C01F nicht umfassten Metalle
,
COMPOUNDS CONTAINING METALS NOT COVERED BY SUBCLASSES C01D OR C01F
/
C04B
Kalk
,
LIME
/
H01B
CABLES
,
Kabel
/
H01M
Verfahren oder Mittel, z.B. Batterien, für die direkte Umwandlung von chemischer in elektrische Energie
,
PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
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