Carbon fiber is a new kind of quality biologic enzyme immobilization carrier.
碳纤维是一种新型优质生物酶固定化载体。
Conducting polymers, due to its superior conductivity, have become good carriers for enzyme immobilization.
导电聚合物具有良好的导电性,已成为一种酶固定的良好载体。
Enzyme immobilization has been proven an effective method to improve catalytic activity and thermal stability of enzyme.
酶的固定化已经证明是提高酶的活性和热稳定性的有效方法。
The condition for enzyme immobilization was studied by using polypropene loaded titanium dioxide membrane to immobilize pesticide degradable enzyme EC3.
利用聚丙烯负载二氧化钛膜固定农药降解酶EC3。
Current situation of biodiesel synthesis catalyzed by lipase transesterification was introduced from the aspects of enzyme immobilization and non-aqueous media.
从固定化和非水介质两方面介绍了脂肪酶催化合成生物柴油的现状。
Hollow fiber ion-exchange membrane is widely used in many areas such as protein separation and purification, removal of heavy metal ion and enzyme immobilization.
中空纤维离子交换膜广泛应用于蛋白质的分离纯化、重金属离子的去除以及酶催化反应等众多领域。
The support and immobilized enzyme were characterized by way of DTA, XRD, FTIR, N2-adsorption and desorption. The mechanism of enzyme immobilization was discussed.
通过DTA、XRD、N_2吸附-脱附、FTIR技术对载体和固定化酶进行了表征,探讨了酶的固定机理;
Several surface modification methods and enzyme immobilization methods were designed and tried to search for the best surface modification method and the best enzyme immobilization method.
为寻找最佳的电极表面修饰方法及酶固定化方法,设计并实验了几种不同的电极表面修饰方法及酶固定化方法。
The chitosan and its derivatives are admirable carriers for enzyme immobilization with many advantages, such as various and simple immobilized methods? good biocompatibility and abundant resources.
指出了壳聚糖及其衍生物作为固定化酶的载体具有固定化方法多样、简单易行、生物相容性好、来源丰富等优点。
The applications of magnetic polymer microspheres in magnetic plastics, enzyme immobilization, cell separation and target drug etc. were also summarized, and the prospects of this field were analyzed.
在此基础上,概述了磁性高分子微球在磁性塑料、固定化酶、细胞分离和靶向药物等领域的应用情况,并对磁性高分子微球的未来研究方向进行了展望。
The cross-linked enzyme aggregate can be applied to immobilization of proteinase, dextranase and the like.
交联酶聚合可以应用于蛋白酶类、聚糖酶类等的固定化。
By comparing with each other in the enzyme recovery, optimal reaction conditions, yields of GOS and mechanical strength of the carriers, the gelatin was selected as better carrier for immobilization.
通过比较三种方法的酶活力回收、最适反应条件、GOS的得率和和载体机械强度,选择明胶作为固定化细胞的载体。
The immobilization methods of enzyme catalyst and the applications in catalysis reaction were introduced in this paper.
本文对酶催化剂的固定化方法以及在有机催化反应中的应用作了部分简述。
A mechanism for the behavior of the different kind of nanoparticles is proposed. The experiment and theory proved the function of nanoparticles in immobilization enzyme.
并对两种不同性质纳米颗粒所起作用的可能机理进行讨论,从理论和实验上证明了纳米颗粒对固定酶的作用。
The function of nanoparticles effect on immobilization enzyme is discussed. It can make a new method for preparation of the third generation biosensor of direct electron transfer.
探讨了纳米颗粒效应在固定化酶中所起的作用,开辟了制备直接电子传递第三代生物传感器的新途径。
At last, the immobilization of enzyme in organic phase was discussed.
文章还介绍了有机相中固定化酶的新方法。
In addition, stability and maneuverability immobilization enzyme are prior to free enzyme.
另外,固定化酶与游离酶相比,稳定性和可操作性都有较大的提高。
The creative results of the systemic investigations demonstrated the feasibility of the carbon fiber as the immobilization carrier of biologic enzyme.
通过系统研究得出创新性结果:以碳纤维作为生物酶固定化载体是可行的。
This invention discloses a method for preparing xylobiose and its specific immobilization enzyme.
本发明公开了一种制备木二糖的方法及其专用固定化酶。
The capability of lactose enzyme membrane mainly depends on the selection of immobilized materials and the methods of immobilization.
酶膜性能的优劣主要决定于固定化材料的选取和固定方法的选择。
The core of high sensitivity and selectivity of biosensors was choice of biological material and immobilization of the enzyme, is the difficult problem in the field of sensor technology.
性能优良的生物材料的选择和切实可行的固定化方法的建立,是高灵敏度、高选择性生物传感器成功研制的核心问题,成为传感技术研究领域的热点和难点。
The flexible immobilized model could achieve a higher recovery of immobilized enzyme activity than traditional covalent immobilization and arm spacer immobilization.
该结果说明,酶的“柔性固定化”模型可以改善传统共价结合固定化酶及手臂固定化酶活力回收率不高的缺陷。
And then try to exam the immobilization yield of the immobilized enzyme, and the enzyme activities of immobilized enzyme and free enzyme to demonstrate some characters of immobilized enzyme.
然后测定固定化酶的固载率,游离酶和固定化酶的活性,从而确定固定化酶的部分性质。
Leading experts in enzyme manipulation describe in detail their cutting-edge techniques for the screening, evolution, production, immobilization, and application of enzymes.
主要在方面的专家酵操作描述详细他们先锋地位技术遮蔽,演化,生产,冻结和酵的应用。
Leading experts in enzyme manipulation describe in detail their cutting-edge techniques for the screening, evolution, production, immobilization, and application of enzymes.
主要在方面的专家酵操作描述详细他们先锋地位技术遮蔽,演化,生产,冻结和酵的应用。
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