Issue 12, 2019

Microfluidic-controlled optical router for lab on a chip

Abstract

In multiplexed analysis, lab on a chip (LoC) devices are advantageous due to the low sample and reagent volumes required. Although optical detection is preferred for providing high sensitivity in a contactless configuration, multiplexed optical LoCs are limited by the technological complexity for integrating multiple light sources and detectors in a single device. To address this issue, we present a microfluidic-controlled optical router that enables measurement in four individual optical channels using a single light source and detector, and without movable parts. The optofluidic device is entirely fabricated in polydimethylsiloxane (PDMS) by soft-lithography, compatible with standard microfabrication technologies, enabling monolithic integration in LoCs. In the device, in-coupled light from an optical fiber is collimated by a polymeric micro-lens and guided through a set of four sequentially connected micro-chambers. When a micro-chamber is filled with water, light is transmitted to the next one. If it is empty of liquid, however, total internal reflection (TIR) occurs at the PDMS–air interface, re-directing the light to the output optical fiber. The router presents high performance, with low cross-talk (<2%) and high switching frequencies (up to 0.343 ± 0.006 Hz), and provides a stable signal for up to 91% of the switching time. With this miniaturized, low-cost, simple and robust design, we expect the current technology to be integrated in the new generation of multiplexed photonic LoCs for biomarker analysis, even at the point of care.

Graphical abstract: Microfluidic-controlled optical router for lab on a chip

Supplementary files

Article information

Article type
Paper
Submitted
12 Feb 2019
Accepted
10 May 2019
First published
13 May 2019
This article is Open Access
Creative Commons BY-NC license

Lab Chip, 2019,19, 2081-2088

Microfluidic-controlled optical router for lab on a chip

J. Dietvorst, J. Goyvaerts, T. N. Ackermann, E. Alvarez, X. Muñoz-Berbel and A. Llobera, Lab Chip, 2019, 19, 2081 DOI: 10.1039/C9LC00143C

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