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    • 7. 发明申请
    • COMPOSITE CERAMIC ELECTROLYTE STRUCTURE AND METHOD OF FORMING; AND RELATED ARTICLES
    • 复合陶瓷电解质结构及其形成方法; 和相关文章
    • US20080299436A1
    • 2008-12-04
    • US11755044
    • 2007-05-30
    • Todd-Michael StrikerJames Anthony RuudStephane Renou
    • Todd-Michael StrikerJames Anthony RuudStephane Renou
    • H01M8/10H01M6/18
    • H01M8/1246H01M2300/0074H01M2300/0091Y02E60/525Y02P70/56
    • A composite ceramic electrolyte is provided. The composite ceramic electrolyte has a microstructure, which comprises a first ceramic composition comprising a plurality of nano-dimensional microcracks, and a second ceramic composition substantially embedded within at least a portion of the plurality of nano-dimensional microcracks. The first and the second compositions are different. A solid oxide fuel cell comprising a composite ceramic electrolyte having such a microstructure is provided. A method of making a composite ceramic electrolyte is also described. The method includes the steps of: providing a first ceramic composition comprising a plurality of nano-dimensional microcracks; and closing a number of the nano-dimensional microcracks with a second ceramic composition, wherein the first and the second compositions are different, so as to form a composite ceramic electrolyte having a microstructure which comprises a first ceramic composition comprising a plurality of nano-dimensional microcracks and a second ceramic composition substantially embedded within at least a portion of the plurality of nano-dimensional microcracks.
    • 提供复合陶瓷电解质。 复合陶瓷电解质具有微观结构,其包括包含多个纳米尺寸微裂纹的第一陶瓷组合物,以及基本嵌入在所述多个纳米尺寸微裂纹的至少一​​部分中的第二陶瓷组合物。 第一和第二组合物是不同的。 提供一种包括具有这种微结构的复合陶瓷电解质的固体氧化物燃料电池。 还描述了制备复合陶瓷电解质的方法。 该方法包括以下步骤:提供包含多个纳米尺寸微裂纹的第一陶瓷组合物; 以及用第二陶瓷组合物封闭许多纳米尺寸微裂纹,其中所述第一和第二组合物是不同的,以便形成具有微结构的复合陶瓷电解质,所述复合陶瓷电解质包含第一陶瓷组合物,所述第一陶瓷组合物包含多个纳米尺寸 微裂纹和基本上嵌入在所述多个纳米尺寸微裂纹的至少一​​部分中的第二陶瓷组合物。
    • 10. 发明申请
    • CERAMIC ELECTROLYTE STRUCTURE AND METHOD OF FORMING; AND RELATED ARTICLES
    • 陶瓷电解质结构及其形成方法 和相关文章
    • US20080131750A1
    • 2008-06-05
    • US11565236
    • 2006-11-30
    • Todd-Michael StrikerJames Anthony RuudStephane Renou
    • Todd-Michael StrikerJames Anthony RuudStephane Renou
    • B05D5/12H01M8/10
    • H01M8/1246Y02E60/525Y02P70/56
    • A ceramic electrolyte is provided. The ceramic electrolyte has a microstructure, which comprises at least a first region comprising a plurality of microcracks having a first average microcrack length and a first average microcrack width, and a second region comprising a second average microcrack length and a second average microcrack width. The microstructure satisfies the criteria of (a) the first average microcrack length being different from the second average microcrack length; or (b) the first average microcrack width being different from the second average microcrack width. A solid oxide fuel cell comprising a ceramic electrolyte having such a microstructure is provided. A method of making a ceramic electrolyte is also described. The method includes the steps of: providing a ceramic electrolyte comprising a plurality of nano-dimensional microcracks; and closing a number of the nano-dimensional microcracks preferentially from one surface of the ceramic electrolyte, such that the ceramic electrolyte has at least one hermetic region and one compliant region.
    • 提供陶瓷电解质。 所述陶瓷电解质具有至少包括具有第一平均微裂纹长度和第一平均微裂纹宽度的多个微裂纹的第一区域和包含第二平均微裂纹长度和第二平均微裂纹宽度的第二区域的微结构。 微结构满足(a)第一平均微裂纹长度不同于第二平均微裂纹长度的标准; 或(b)第一平均微裂纹宽度不同于第二平均微裂纹宽度。 提供一种包含具有这种微结构的陶瓷电解质的固体氧化物燃料电池。 还描述了制备陶瓷电解质的方法。 该方法包括以下步骤:提供包含多个纳米尺寸微裂纹的陶瓷电解质; 并且优选地从陶瓷电解质的一个表面封闭多个纳米尺寸微裂纹,使得陶瓷电解质具有至少一个密封区域和一个柔顺区域。