混合光流集成。

Hybrid optofluidic integration.

机构信息

School of Engineering, University of CA Santa Cruz, 1156 High Street, Santa Cruz, CA 95064, USA.

出版信息

Lab Chip. 2013 Oct 21;13(20):4118-23. doi: 10.1039/c3lc50818h. Epub 2013 Aug 23.

DOI:10.1039/c3lc50818h

PMID:23969694

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3818110/

Abstract

Complete integration of microfluidic and optical functions in a single lab-on-chip device is one goal of optofluidics. Here, we demonstrate the hybrid integration of a PDMS-based fluid handling layer with a silicon-based optical detection layer in a single optofluidic system. The optical layer consists of a liquid-core antiresonant reflecting optical waveguide (ARROW) chip that is capable of single particle detection and interfacing with optical fiber. Integrated devices are reconfigurable and able to sustain high pressures despite the small dimensions of the liquid-core waveguide channels. We show the combination of salient sample preparation capabilities-particle mixing, distribution, and filtering-with single particle fluorescence detection. Specifically, we demonstrate fluorescent labelling of λ-DNA, followed by flow-based single-molecule detection on a single device. This points the way towards amplification-free detection of nucleic acids with low-complexity biological sample preparation on a chip.

摘要

在单个芯片实验室设备中实现微流控和光学功能的完全集成是光流控的一个目标。在这里，我们展示了基于 PDMS 的流体处理层与基于硅的光学检测层在单个光流系统中的混合集成。光学层由能够进行单颗粒检测并与光纤接口的液体芯反谐振反射光学波导 (ARROW) 芯片组成。尽管液体芯波导通道的尺寸很小，但集成器件是可重构的并且能够承受高压。我们展示了突出的样品制备能力的结合 - 颗粒混合、分配和过滤 - 与单颗粒荧光检测。具体来说，我们展示了 λ-DNA 的荧光标记，然后在单个设备上进行基于流动的单分子检测。这为在芯片上进行无扩增的低复杂度生物样品制备的核酸检测铺平了道路。

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