纳米酶

  • 网络Nanoenzyme;nano-enzyme
纳米酶纳米酶
  1. 一种基于纳米酶体系的DNA检测新方法

    A New Strategy of DNA Detection Based on Nano-Enzyme

  2. 这一芯片是由离散纳米酶必将在水井。

    This chip is composed of descrete nano-wells in which enzymes are bound .

  3. 纳米生态酶空气材料及其在空气净化器中的应用

    The Nanon Eco-Enzyme Air Material and Its Applicationin Air-purifier

  4. 纳米级酶固定化技术的发展

    Research Progress of Nanometer-scale Immobilization of Enzyme

  5. 纳米增强酶生物传感器的研究

    Research on Enzyme Biosensors Incorporating Nanoparticles

  6. 此外,采用纳米金作为酶标抗体标记物,利用化学发光增强体系对甲胎蛋白(AFP)进行检测。

    Furthermore , this new enhanced CL system was also applied to detect aloha-fetal protein ( AFP ) using Au nanoparticles ( AuNPs ) as the HRP-antibody ( HRP-Ab ) labels .

  7. 研究人员发明了一种含有纳米颗粒的酶。

    The researchers have developed a coating that combines enzymes with nanoparticles .

  8. 阐述了纳米颗粒增强酶生物传感器的初步机理,并对国内外纳米颗粒增强葡萄糖氧化酶生物传感器的研究进展进行评述。

    The primary principles that nanoparticles strengthen function of enzyme biosensor , especially glucose biosensor oxidase are commented on .

  9. 最后,将纳米催化剂与酶相结合,动态动力学拆分手性化合物制备单一对映体结构的手性化合物。

    Finally , the dynamic split of chiral compounds chiral compounds with the structure of a single enantiomer by combination of nano-catalysts and enzyme .

  10. 据我们所知,目前尚无基于Ag纳米微粒的无酶胆固醇传感器的报道,实验结果表明多孔管状Ag纳米微粒为合理设计和构建无酶胆固醇传感器提供了一个良好的平台。

    To the best of our knowledge , it is the first example of a nonenzymatic cholesterol biosensor based on Ag nanoparticles . The experimental results demonstrated that porous tubular Ag nanoparticles provided a promising platform for rational design and fabrication of nonenzymatic cholesterol sensors .

  11. 将多壁碳纳米管(MWCNT)与Poly(AN-co-OVAG)共混电纺,得到的复合纳米纤维膜过氧化氢酶等氧化还原酶良好的载体。

    The multi-walled carbon nanotubes ( MWCNT ) and Poly ( AN-co-OVAG ) were blended and the resulting composite nanofiber membrane is good carrier for hydrogen peroxide oxidoreductase .

  12. 纳米修饰电流型酶生物传感器在农药残留分析中的应用

    Studies on Nano-modified Amperometric Enzyme Biosensor and Its Application in Pesticide Residue Analysis

  13. 基于静电吸附甲苯胺蓝和纳米金固定过氧化物酶生物传感器的研究

    Hydrogen Peroxide Biosensor Based on Toluidine Blue and Nano - Au Through Electrostatic Adsorption

  14. 纳米铂颗粒在酶生物传感器中的应用研究

    Effect of platinum nanoparticles on enzyme biosensor

  15. 纳米铜颗粒-酶-复合功能敏感膜生物传感器

    Nano-Copper Particles-Enzyme-Sensitivity of Composite Membrane Glucose Biosensor

  16. 纳米颗粒增强尿酸酶生物传感器的研究设想

    Study On The Nanoparticles Strengthen Uricase Biosensor

  17. 基于C纳米球和纳米CuO的无酶生物传感器制备及电化学性质研究

    Study on Fabrication and Electrochemical Property of Nonenzymatic Biosensor Based on Carbon Nanospheres / CuO Nanocrystals

  18. 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。

    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 .

  19. 研究了含糖纳米纤维膜形态结构;通过亲水性测试、BSA吸附、巨噬细胞黏附等实验检测纳米纤维膜的生物相容性;在此基础上,系统考察了含糖纳米纤维膜酶的固定化的行为。

    The morphology of nanofiber membrane was studied by SEM . The biocompatibility of nanofiber membrane was proved by the hydrophilic test , BSA adsorption , adhesion of macrophages and other experiments testing . On this basis , the nanofiber membrane was used for studying behavior of enzyme immobilization .