微流场是液相芯片的检测场所,研究了微流场系统的设计和流速控制方法。
As detective area of suspension array, how to design a micro-fluidic system and control the flow velocity are discussed in detail.
目的:建立液相蛋白芯片测定afp、CEA、CA19 - 9、CA125等肿瘤标志物的方法,讨论其应用于临床检验的可行性。
Objective To set up a liquid chip system for the detection of the tumor markers AFP, CEA, CA19-9 and CA125 in clinical practice.
比较液相与固相蛋白芯片检测多肿瘤标记物的临床应用效果,并探讨液相蛋白芯片应用于临床检验的可行性。
To compare the results of clinical application of liquid and solid protein chip technology in detecting multiple tumor markers, and discuss the feasibility of liquid protein chip in clinical practice.
微流控芯片高效液相色谱-串联质谱系统具有高通量、高灵敏度等优点,已成为生物样品分析的热点领域之一。
Due to the high throughput and high sensitivity, the hyphenation of microchip-based high performance liquid chromatography with tandem mass spectrometry has been paid much attention.
微流控芯片高效液相色谱-串联质谱系统具有高通量、高灵敏度等优点,已成为生物样品分析的热点领域之一。
Due to the high throughput and high sensitivity, the hyphenation of microchip-based high performance liquid chromatography with tandem mass spectrometry has been paid much attention.
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