基于动态复合液滴的多重连续微流控传感器。
Multiplexed and continuous microfluidic sensors using dynamic complex droplets.
机构信息
Department of Chemical and Environmental Engineering, University of Arizona, 1133 E. James E. Rogers Way, Tucson, Arizona 85721, USA.
出版信息
Soft Matter. 2023 Mar 8;19(10):1930-1940. doi: 10.1039/d3sm00074e.
Emissive complex droplets with reconfigurable morphology and dynamic optical properties offer exciting opportunities as chemical sensors due to their stimuli-responsive characteristics. In this work, we demonstrated a real-time optical sensing platform that combines poly(dimethylsiloxane) (PDMS) microfluidics and complex droplets as sensing materials. We utilized a mechanism, called directional emission, to transduce changes in interfacial tension into optical signals. We discuss the fabrication and integration of PDMS microfluidics with complex emulsions to facilitate continuous measurement of fluorescent emission and, ultimately, the interfacial tensions. Furthermore, by varying the interfacial functionalization and fluorescent dye with characteristic wavelength, we generate multiple formulations of droplets and obtain differential responses to stimuli that alter interfacial tensions (, composition of surfactants, pH). Our results illustrate a proof-of-concept multiplexed and continuous sensing platform with potential applications in miniaturized, on-site environmental monitoring and biosensing.
发射型复合液滴具有可重构的形态和动态光学特性,由于其对刺激的响应特性,为化学传感器提供了令人兴奋的机会。在这项工作中,我们展示了一个实时光学传感平台,该平台结合了聚二甲基硅氧烷 (PDMS) 微流控和复合液滴作为传感材料。我们利用一种称为定向发射的机制,将界面张力的变化转化为光学信号。我们讨论了 PDMS 微流控与复杂乳液的制造和集成,以促进荧光发射的连续测量,最终测量界面张力。此外,通过改变界面功能化和具有特征波长的荧光染料,我们生成了多种液滴配方,并对改变界面张力(表面活性剂的组成、pH 值)的刺激产生了不同的响应。我们的结果说明了一个具有多路复用和连续传感功能的概念验证平台,具有在小型化、现场环境监测和生物传感中应用的潜力。
Zotero 插件