高等学校化学学报
高等學校化學學報
고등학교화학학보
CHEMICAL JOURNAL OF CHINESE UNIVERSITIES
2014年
9期
1941-1947
,共7页
宋敏%张琳萍%钟毅%徐红%毛志平
宋敏%張琳萍%鐘毅%徐紅%毛誌平
송민%장림평%종의%서홍%모지평
环多胺锰配合物%负载%微胶囊%催化剂%氧化反应
環多胺錳配閤物%負載%微膠囊%催化劑%氧化反應
배다알맹배합물%부재%미효낭%최화제%양화반응
Manganese complex of cyclic polyamine%Immobilization%Microcapsule%Catalyst%Oxidation reaction
采用乳化溶剂蒸发的方法制备了负载型催化剂环多胺锰/乙基纤维素微胶囊( MnAcL-EC),并确认了MnAcL在微胶囊内负载后结构的完整性,对其进行了形貌结构表征, MnAcL-EC微胶囊负载型催化剂内部呈特殊的多芯结构.该催化剂在活性蓝(C. I. Reactive Blue 49)的氧化反应中表现出了优异的催化性能.催化反应后微胶囊粒径增大,球体表面孔道增多;元素分析结果显示,微胶囊内负载的MnAcL在催化反应后几乎没有减少,表明负载后的MnAcL是在微胶囊内部催化了外界底物分子的氧化反应.所制备的MnAcL-EC微胶囊具备很好的循环利用性,可以有效减少催化活性组分的流失,方便回收利用.
採用乳化溶劑蒸髮的方法製備瞭負載型催化劑環多胺錳/乙基纖維素微膠囊( MnAcL-EC),併確認瞭MnAcL在微膠囊內負載後結構的完整性,對其進行瞭形貌結構錶徵, MnAcL-EC微膠囊負載型催化劑內部呈特殊的多芯結構.該催化劑在活性藍(C. I. Reactive Blue 49)的氧化反應中錶現齣瞭優異的催化性能.催化反應後微膠囊粒徑增大,毬體錶麵孔道增多;元素分析結果顯示,微膠囊內負載的MnAcL在催化反應後幾乎沒有減少,錶明負載後的MnAcL是在微膠囊內部催化瞭外界底物分子的氧化反應.所製備的MnAcL-EC微膠囊具備很好的循環利用性,可以有效減少催化活性組分的流失,方便迴收利用.
채용유화용제증발적방법제비료부재형최화제배다알맹/을기섬유소미효낭( MnAcL-EC),병학인료MnAcL재미효낭내부재후결구적완정성,대기진행료형모결구표정, MnAcL-EC미효낭부재형최화제내부정특수적다심결구.해최화제재활성람(C. I. Reactive Blue 49)적양화반응중표현출료우이적최화성능.최화반응후미효낭립경증대,구체표면공도증다;원소분석결과현시,미효낭내부재적MnAcL재최화반응후궤호몰유감소,표명부재후적MnAcL시재미효낭내부최화료외계저물분자적양화반응.소제비적MnAcL-EC미효낭구비흔호적순배이용성,가이유효감소최화활성조분적류실,방편회수이용.
Manganese complex of cyclic polyamine ( MnAcL ) was encapsulated within ethyl cellulose ( EC ) microcapsules via emulsion solvent evaporation technique. The morphology of MnAcL-EC microcapsule was characterized. The results of UV-Vis confirmed the structural integrity of MnAcL in EC microcapsules. The catalytic property of the as-prepared MnAcL-EC microcapsules was evaluated by the oxidation of C. I. Reactive blue 49 with H2 O2 . It was found that both the particle size and the pores on the surface of the spheres in-creased after the reaction. However, the amount of MnAcL in EC microcapsules was almost not changed, as measured by the elemental analysis. It was suggested that the oxidation of C. I. Reactive blue 49 was catalyzed successfully by the encapsulated MnAcL inside the microcapsules. What’ s more, the as-prepared MnAcL-EC microcapsules could be reused for at least 4 times. These results demonstrated that the MnAcL-EC microcap-sule prepared in this paper could be applied as a high efficient catalyst.