在电化学发光检测中,即要检测微弱电流。
In the measurement of Electrogenerated Chemiluminescence, that is to measure the weak current.
研究了中性体系中鲁米诺的电化学发光行为。
The electrochemiluminescence (ECL) behavior of luminol in neutral medium is studied.
采用电化学发光方法检测血清中CA1 2 5。
The serum level of CA125 was assayed by electrochemiluminescence immunoassay.
第一部分为综述,简单介绍了电化学发光的概念、特点;
The first part is the review section. In this section, the definition, characteristics of the Electrochemiluminescence (ECL);
首次提出并实现了一种高灵敏度、定量的电化学发光特征基因检测方法。
For the first time and achieved a high sensitivity, the quantitative characteristics of the electrochemiluminescence gene detection method.
方法:运用电化学发光技术检测131例盆腔包块患者血清的CA12 5值。
Methods: The serum CA125 level was measured with ECL in 131 patients of pelvic lump.
结论电化学发光法的精密度、回收率优于酶联免疫法,且具有快速稳定的特点。
Conclusions The precision and recovery rate of ECLIA are better than that of ELISA. And ECLIA is faster and more stable than ELISA.
前言:目的观察电化学发光免疫检测血清tsh,T 3, T4之间相关性。
Objective: To observe the correlation among the ECLI detection of TSH, T3and T4.
方法:用电化学发光法和放射免疫法分别测定72例不同程度肝硬化患者血清甲状腺素含量与层粘蛋白水平。
Methods: The concentrations of serum laminin and thyroxine were determined by electrochemi luminescence immunoassay and radioimmunoassy in 72 patients with different degree of liver cirrhosis.
当向电极上施加一电位时,电化学发光供体将能量转移给量子点受体,产生高效的电化学发光共振能量转移。
When a potential was applied to the electrode, the electrochemical donors transferred energy to the QD acceptors, producing efficient ECRET.
采用电化学发光免疫分析法检测血清CA125、CA153、CA199,采用微粒子酶免疫分析法检测血清scc。
Electrochemical luminescence immunoassay method was used to detect CA153, CA199 and CA125, and particle enzyme immunoassay method was used to detect SCC.
方法采用电化学发光法(ECLIA)分别对肺癌组、肺部良性疾病组患者及健康人的血清肿瘤标记物浓度进行检测分析。
Methods Serum tumor markers of lung cancer group, benign disease group and health control group were detected by chemiluminescence immunoassay (ECLIA).
肖小慧, 彭献香, 龚启斌,等。 电化学发光与放射免疫检测甲胎蛋白的比较。实用医学杂志, 2002;18(12): 1345。
Xiao XH, Peng XX, Gong QB, et al. Comparing ECLIA with RIA in detecting serum AFP. The Journal of Practical Medicine, 2002; 18(12): 1345.
很显然,微流控系统中用空气作载流的分析方法不适于分光检测、电化学检测以及荧光检测,但用化学发光检测时则显示出独特的优势。
It was obvious that the proposed analytical method of the air carrier in microfluidic system were not suitable for the spectrophotometric, electrochemical and fluorescence detection.
很显然,微流控系统中用空气作载流的分析方法不适于分光检测、电化学检测以及荧光检测,但用化学发光检测时则显示出独特的优势。
It was obvious that the proposed analytical method of the air carrier in microfluidic system were not suitable for the spectrophotometric, electrochemical and fluorescence detection.
应用推荐