固定化酶技术

而固定化酶技术最为关键的是固定化酶载体的选择。

The most critical for Immobilized enzyme technology is the choice of the immobilized enzyme carrier .

微波/超声波及固定化酶技术在食品蛋白质高效水解中的应用研究进展

Research Progress on Application of High Efficiency Hydrolysis of Food Protein by Microwave / Ultrasonic Assisted and Immobilized Enzyme Technology

固定化酶技术进展Ⅰ.固定化方法

Developments in Immobilized Enzymes Technology ⅰ . Immobilization Techniques

基于固定化酶技术的绿茶低温浸提工艺

Study on the Low-temperature Extraction of Green Tea Based on the Immobilized-enzyme Technology

磁变性淀粉、多糖微球固定化酶技术

Technology of magnetic starch and polysaccharide microspheres immobilized enzyme

固定化酶技术改善绿茶饮料香气品质的研究

Study on the Catalysis of Immobilized Enzymes on Green Tea Drink to Improve Aroma Quality

不仅为固定化酶技术提供了新的方法，而且进一步拓展了仿生矿化的应用。

The method offers a new program for the immobilized enzyme technology , and further expands the application of biomimetic mineralization .

近几十年，各种有关固定化酶技术和载体材料的研究都取得了重大发展。

In the recent years , a lot of researches about the immobilizing technologies and carriers of immobilized enzyme have developed fast .

基于普鲁士蓝修饰玻碳电极结合二氧化硅溶胶凝胶固定化酶技术构造具有三明治式结构的酶电极。

A highly sensitive glucose biosensor was prepared based on the Prussian Blue modified electrode combined with SiO 2 Sol-Gel immobilization method in a sandwich configuration .

固定化酶技术与游离酶相比，固定化酶具有很多优点，如稳定性大大增强，催化效率高，易于产物的分离等，因此国内外对胰蛋白酶的固定化作了大量的研究。

Compared with the free enzyme , immobilized enzyme has many advantages , such as great enhanced stability , high efficient catalysis , easy separation of the products and so on .

目前用于裂解反应的固定化酰化酶技术日益成熟，因而化学法裂解的生产工艺已逐渐被淘汰。

At present , immobilized amidate enzyme technology used in fragmentation reaction is coming increasingly to maturity and the chemical fragmentation process is gradually being obsolete .

以等离子体处理的载体材料固定化酶，开拓了固定化酶技术的新领域。

Using carrier materials treated by plasma technology exploits a new land of immobilized enzymes .

结果表明，载体材料的发展能有效地改善固定化酶的性能，并在扩大其应用范围的同时还可能带来固定化酶技术上的突破。

The advancement of support materials could enhance the performance of the immobilized enzyme , enlarge their application fields and possibly bring breakthrough in the enzyme immobilization methods .