很多酶生物传感器是利用氧化酶将底物氧化,同时产生过氧化氢,通过在电极表面检测过氧化氢的量来达到检测的目的。
Many enzyme biosensors achieve their detecting objects by detecting the amount of H2O2 on the electrode surfaces which produce in the processes that oxidases oxidize the substrates.
本论文的主要工作是基于等离子体聚合膜的优良性质,构建电位型的乙酰胆碱酯酶生物传感器和电流型的过氧化氢生物传感器。
In this paper, a potentiometric acetylcholinesterase biosensor and two kinds of ampermetric hydrogen peroxide biosensors have been developed based on plasma polymerized film.
针对苯丙氨酸解氨酶生物传感器非线性特性,依据最小二乘法理论,采用最优化技术,建立了最佳拟合直线的数学模型,并给出基于可编程控制器的数据拟合程序。
To solve the non-linear problem of a biosensor, the least square method and the optimum technique have been applied to build a mathematical model to evaluate the optimum fitting straight.
化学工程在开发生物传感器方面也发挥着作用,如利用固定酶的方法对微量样品进行在线分析。
Chemical engineering can also play a part in the design and development of biological sensors, employing immobilized enzymes to analyze minute samples online.
具有更广泛应用前景的现场快速检测技术:免疫分析、生物传感器、酶抑制技术等。
The potentiality in the use of biosensor, immunoassay and enzyme inhibition were great in the rapid detection on the spot.
采用铁氰化钾作为媒介体,将尿酸氧化酶固定在羧甲基纤维素钠处理过的碳电极表面,研制成一种尿酸生物传感器。
An amperometric uric acid biosensor was developed by immobilizing uric acid oxidase on carbon electrodes, in which, potassium ferricyanide was used to electron medium of chemistry response.
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。
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.
当PKA开启时并且有酶分子贴近生物传感器时,PKA会改变生物传感器的形状,导致生物传感器发稳定的绿光。
When PKA is turned on and is physically close to a biosensor, PKA itself changes the shape of the biosensor, causing it to glow green instead.
新的快速检测技术有聚合酶链式反应(PCR)技术、伏安型生物传感器、自动微生物检测系统(ams)、改良MRS培养基和三磷酸腺苷(atp)法等,较传统方法迅速、准确。
The new rapid determination techniques were polyase chain reaction method (PCR), volt-ampere biosensor method, automatic microbe system method (AMS), improvement of MRS culture medium and ATP etc.
近年来,分子印迹法制得的聚合物在分离、分析、免疫测定、催化、模拟酶及生物传感器等方面的应用引起人们的广泛关注。
Polymers prepared by molecular imprinting have received much attention in recent years for separations, analysis, immunoassays, catalysis, enzyme mimics and biosensor.
研究了基于酶抑制原理的农药残留生物传感器中固定化酶的制备方法。
The preparation method of immobilized enzyme used in the biosensors to detect pesticide residue based on the principle of enzyme inhibition has been investigated.
化学、生物传感器也可用于抗体、酶、细菌、受体、DNA、表面等离子共振体、红外线光谱等检测方法中。
Sensors and biosensors are also available using antibodies, enzymes, bacteria, receptors, DNA, surface plasmon resonance or infrared spectroscopy.
采用铁氰化钾作为媒介体,将尿酸氧化酶固定在羧甲基纤维素钠处理过的碳电极表面,研制成一种尿酸生物传感器。
A new amperometric uric acid biosensor developed by immobilizing of uric acid oxidase in carbon electrodes, in which, potassium ferricyanide is used to electron medium of chemistry response.
有机磷农药生物传感器已有很多报道,其设计原理大多是基于乙酰胆碱酯酶的不可逆抑制作用。
The design theory of the organ phosphorus pesticide biosensor is based on the irreversible restrain of acetyl cholinesterase by the organ phosphorus pesticide.
ECL在生物传感器研究、免疫分析和DNA探针、表面分析和酶分析中得到了广泛的应用。
ECL is widely used in biosensor, immune sensor, DNA probe, surface analysis and enzyme analysis.
基于负载辣根过氧化氢酶(HRP)的介孔二氧化硅(MS)粒子的酶场效应晶体管(ENFET)用来检测过氧化氢浓度的生物传感器已经被制得。
The enzyme field-effect transistor(ENFET)biosensor based on horseradish peroxidase(HRP)-loaded meso- porous silica(MS)particles for detecting H_2O_2 concentration was fabricated.
基于负载辣根过氧化氢酶(HRP)的介孔二氧化硅(MS)粒子的酶场效应晶体管(ENFET)用来检测过氧化氢浓度的生物传感器已经被制得。
The enzyme field-effect transistor(ENFET)biosensor based on horseradish peroxidase(HRP)-loaded meso- porous silica(MS)particles for detecting H_2O_2 concentration was fabricated.
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