高等学校化学学报
高等學校化學學報
고등학교화학학보
Chemical Journal of Chinese Universities
2015年
11期
2349-2354
,共6页
张翔%李书润%翟文韬%曹莹泽%齐宏旭%吉岩%危岩
張翔%李書潤%翟文韜%曹瑩澤%齊宏旭%吉巖%危巖
장상%리서윤%적문도%조형택%제굉욱%길암%위암
酶固定化%纤维二糖酶%介孔二氧化硅%磁性纳米颗粒%溶胶-凝胶反应%非表面活性剂
酶固定化%纖維二糖酶%介孔二氧化硅%磁性納米顆粒%溶膠-凝膠反應%非錶麵活性劑
매고정화%섬유이당매%개공이양화규%자성납미과립%용효-응효반응%비표면활성제
Enzyme encapsulation%Cellobiase enzyme%Mesoporous silica%Magnetic nanoparticles%Sol-gel reaction%Non surfactant template
以非表面活性剂为模板,通过引入磁性纳米颗粒,制备了磁性介孔硅材料,实现了纤维二糖酶的原位固定,得到了磁性固定化酶。制备流程操作简单、原料易得、使用方便。溶胶-凝胶反应在水相、常温、中性条件下进行,适用于工业化生产。对磁性固定化酶进行了气体吸附分析、热重分析、表面形貌分析和磁性表征。结果表明,磁性固定化酶具有较大的比表面积、较窄的介孔分布和软铁磁性。与非介孔固定化酶相比,磁性固定化酶表观酶活明显提高。磁性颗粒的引入对酶活性没有显著的影响,并且可以非常方便和快速地从反应系统中回收再利用,结合磁场的可控性,非表面活性剂模板溶胶-凝胶法有望实现固定化酶的大规模可控释放与回收。
以非錶麵活性劑為模闆,通過引入磁性納米顆粒,製備瞭磁性介孔硅材料,實現瞭纖維二糖酶的原位固定,得到瞭磁性固定化酶。製備流程操作簡單、原料易得、使用方便。溶膠-凝膠反應在水相、常溫、中性條件下進行,適用于工業化生產。對磁性固定化酶進行瞭氣體吸附分析、熱重分析、錶麵形貌分析和磁性錶徵。結果錶明,磁性固定化酶具有較大的比錶麵積、較窄的介孔分佈和軟鐵磁性。與非介孔固定化酶相比,磁性固定化酶錶觀酶活明顯提高。磁性顆粒的引入對酶活性沒有顯著的影響,併且可以非常方便和快速地從反應繫統中迴收再利用,結閤磁場的可控性,非錶麵活性劑模闆溶膠-凝膠法有望實現固定化酶的大規模可控釋放與迴收。
이비표면활성제위모판,통과인입자성납미과립,제비료자성개공규재료,실현료섬유이당매적원위고정,득도료자성고정화매。제비류정조작간단、원료역득、사용방편。용효-응효반응재수상、상온、중성조건하진행,괄용우공업화생산。대자성고정화매진행료기체흡부분석、열중분석、표면형모분석화자성표정。결과표명,자성고정화매구유교대적비표면적、교착적개공분포화연철자성。여비개공고정화매상비,자성고정화매표관매활명현제고。자성과립적인입대매활성몰유현저적영향,병차가이비상방편화쾌속지종반응계통중회수재이용,결합자장적가공성,비표면활성제모판용효-응효법유망실현고정화매적대규모가공석방여회수。
Nonsurfactant-templated sol-gel method is an advanced technology for enzyme encapsulation. The immobilized enzyme can be reused many times, so that can reduce the cost. It has a broad application prospect in biological catalysis. D-fructose is used as non-surfactant template to generate mesopores. The average diameter of the mesoporous silica is 3. 2 nm. And they significantly improve the activity of the immobilized enzyme. The best result is 70% of free enzyme. On the other hand, the mesopores are smaller than the size of cellobiase enzyme. So the enzyme will not leach out. That can help avoiding enzyme leaching. The magnetic nanoparticles can make the separation and recycle of immobilized enzyme easier and more feasi-ble. The incorporation of magnetic nanoparticles has little effect on the enzyme activity. The magnetic encap-sulated enzyme can be easily recycled by magnet force. More than 83% remained after 10 cycles. The process is simple and biocompatible as the sol-gel reaction occurs inaqueous phase and neutral pH.
