Issue 12, 2019

Real-time optical fiber sensors based on light diffusing microlens arrays

Abstract

The applications of optical fibers are impeded in implantable medical diagnostics due to incompatibility with biological tissues, and immune reaction in vivo. The utilization of biocompatible materials to construct a photonic sensing platform can reduce the immune response in in vivo medical diagnostics. Here, we developed real-time optical fiber sensors to determine the volumetric modulation of stimuli-responsive polymers. Asymmetric microlens structures were replicated on stimuli-sensitive hydrogels as stand-alone sensors and were chemically attached to the tips of silica and biocompatible optical fibers. Quantitative measurements were carried out using a smartphone to demonstrate the ease, simplicity, and practicality of the readout methodology. To demonstrate the utility in real-time sensing, the fiber probe was investigated in various concentrations of ethanol, propan-2-ol, and dimethyl sulfoxide. Also, the fiber probe showed a rapid response to pH in the acidic region with a sensitivity of 40 nW pH−1. To develop biocompatible probes for physiological applications, a microlens array-imprinted polymer was attached to the tip of a hydrogel optical fiber. The optical fiber probe in the refection configuration showed a sensitivity of 7 nW pH−1. The developed hydrogel fiber probes may have application in point-of-care diagnostics, continuous biomarker monitoring, and critical care sensing devices.

Graphical abstract: Real-time optical fiber sensors based on light diffusing microlens arrays

Article information

Article type
Communication
Submitted
09 Mac 2019
Accepted
10 Mei 2019
First published
13 Mei 2019

Lab Chip, 2019,19, 2060-2070

Real-time optical fiber sensors based on light diffusing microlens arrays

M. Elsherif, R. Moreddu, M. U. Hassan, A. K. Yetisen and H. Butt, Lab Chip, 2019, 19, 2060 DOI: 10.1039/C9LC00242A

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