材料导报
材料導報
재료도보
MATERIALS REVIEW
2010年
7期
11-15,29
,共6页
葛鑫%李碧静%陈彤%王公应
葛鑫%李碧靜%陳彤%王公應
갈흠%리벽정%진동%왕공응
多壁碳纳米管%改性%载体
多壁碳納米管%改性%載體
다벽탄납미관%개성%재체
multi-walled carbon nanotube%modification%supports
多壁碳纳米管独特的结构和性质(纳米尺寸、介孔结构和大比表面积)使其成为催化剂的良好载体.侧重于催化领域的应用,结合改性的多壁碳纳米管为载体的催化剂在各催化反应中的应用,综述了催化领域中多壁碳纳米管载体的改性方法,指出针对不同的催化反应需采用不同的方法或多种方法相结合对碳纳米管进行表面改性修饰.
多壁碳納米管獨特的結構和性質(納米呎吋、介孔結構和大比錶麵積)使其成為催化劑的良好載體.側重于催化領域的應用,結閤改性的多壁碳納米管為載體的催化劑在各催化反應中的應用,綜述瞭催化領域中多壁碳納米管載體的改性方法,指齣針對不同的催化反應需採用不同的方法或多種方法相結閤對碳納米管進行錶麵改性脩飾.
다벽탄납미관독특적결구화성질(납미척촌、개공결구화대비표면적)사기성위최화제적량호재체.측중우최화영역적응용,결합개성적다벽탄납미관위재체적최화제재각최화반응중적응용,종술료최화영역중다벽탄납미관재체적개성방법,지출침대불동적최화반응수채용불동적방법혹다충방법상결합대탄납미관진행표면개성수식.
Multi-walled carbon nanotube(MWNT) is considered to be excellent catalyst supports due to its unique structure and properties(nano-scale, mesoporous, high-surface-area). In this paper, the application of MWNT in catalysis areas is focused on and the modifying methods of MWNT as catalyst supports are summarized. Finally,the point that adopting different modified methods or several modified methods of carbon nanotube simultaneously for different catalytic reaction are emphasized.