Issue 21, 2014

In-line microfluidic integration of photonic crystal fibres as a highly sensitive refractometer

Abstract

Photonic crystal fibres appear to be an ideal platform for the realisation of novel optofluidic devices and sensors due to their waveguide nature and microstructured architecture. In this paper, we present the fabrication and characterisation of an in-line photonic crystal fibre microfluidic refractometer enabled by a C-shaped fibre. The C-shaped fibre spliced in-between the photonic crystal fibre and the single-mode fibre allows simultaneous in-line optical signal delivery and analyte fluid feeding. Through an arc discharge pre-treatment technique, we successfully achieve selective exploitation of only the central two channels of the photonic crystal fibre for microfluidic sensing. After constructing a Sagnac interferometer, a highly sensitive refractometer with a sensitivity of 8699 nm per RIU was achieved experimentally; this agrees very well with the theoretical value of 8675 nm per RIU. As a demonstration for label-free optical sensing application, the refractometer was used to measure the concentration of NaCl solution with a sensitivity of 15.08 nm/(1 wt%) and a detection limit of 2.3 × 10−3 wt% (23 ppm).

Graphical abstract: In-line microfluidic integration of photonic crystal fibres as a highly sensitive refractometer

Article information

Article type
Paper
Submitted
24 Jul 2014
Accepted
25 Jul 2014
First published
25 Jul 2014

Analyst, 2014,139, 5422-5429

Author version available

In-line microfluidic integration of photonic crystal fibres as a highly sensitive refractometer

C. Wu, M. V. Tse, Z. Liu, B. Guan, A. P. Zhang, C. Lu and H. Tam, Analyst, 2014, 139, 5422 DOI: 10.1039/C4AN01361A

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