用表面活性剂水动力延迟效应检测器测量分析物解吸

Afreen Fatima, A. Basu
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摘要

生物微流控系统的一个常见问题是,当两亲分子吸附到疏水通道壁上时,流体通道可能被污染。解吸率通常使用光学方法测量,其中许多方法需要发色团或荧光团标签。本文描述了使用滴频传感器(DFS)的无标签解吸测量,这是我们小组最近报道的一种微流体传感器。DFS是基于表面活性剂的缓阻效应,测量表面活性剂对在三通结中产生的微滴的阻力。我们测量了小分子表面活性剂Tween从聚二甲基硅氧烷通道壁上的解吸曲线。典型的解吸时间随着吐温浓度的增加而增加,吐温浓度在10到1000 ppm之间时,从45到324秒不等。检测限为10ppm。
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Measuring Analyte Desorption using a Surfactant Hydrodynamic Retardation Effect Detector
A common issue in biomicrofluidic systems is that fluidic channels may become contaminated when ampiphilic molecules adsorb to the hydrophobic channel walls. Desorption rates are often measured using optical methods, many of which require a chromophore or a fluorophore label. This paper describes label-free desorption measurements using a drop frequency sensor (DFS), a microfluidic sensor reported recently by our group. The DFS is based on a surfactant retardation effect which measures the drag of surface-active agents on microdroplets generated in a tee junction. We measure desorption curves of Tween, a small molecule surfactant, from the walls of a polydimethylsiloxane channels. Typical desorption times increase with Tween concentration, ranging from 45 to 324 seconds at Tween concentrations between 10 and 1000 ppm. The limit of detection is 10 ppm.
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