广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2012年
9期
31-34
,共4页
介孔材料%金属氧化物%制备%应用
介孔材料%金屬氧化物%製備%應用
개공재료%금속양화물%제비%응용
mesoporous materials%metallic oxide%preparation%application
介孔结构金属氧化物材料拥有大的表面积,特殊的结构特征,具备更多的催化点或反应点而备受关注。鉴于此,介绍了介孔结构金属氧化物的三种主要方法:溶胶一凝胶法、模板合成法和纳米晶粒组装法;探讨了介孔结构金属氧化物在催化、传感和能源等领域的应用。
介孔結構金屬氧化物材料擁有大的錶麵積,特殊的結構特徵,具備更多的催化點或反應點而備受關註。鑒于此,介紹瞭介孔結構金屬氧化物的三種主要方法:溶膠一凝膠法、模闆閤成法和納米晶粒組裝法;探討瞭介孔結構金屬氧化物在催化、傳感和能源等領域的應用。
개공결구금속양화물재료옹유대적표면적,특수적결구특정,구비경다적최화점혹반응점이비수관주。감우차,개소료개공결구금속양화물적삼충주요방법:용효일응효법、모판합성법화납미정립조장법;탐토료개공결구금속양화물재최화、전감화능원등영역적응용。
Mesoporous metallic oxide materials were attracted a great deal of attention due to the Characteristics of high surface area, peculiar structural characteristic such as pore canal and cavity and more catalyst and reactive sites. The sol - gel method, the template synthesis and nano grain assembly method of mesoporous metallic oxide materials preparation were introduced. The application of mesoporous metal oxide materials in catalysis, sensing element and energy were explored.
