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A Method for the Controllable Fabrication of Optical Fiber-based Localized Surface Plasmon Resonance Sensors

Authors:
A. Calatayud-Sanchez, A. Ortega-Gomez, J. Barroso, J. Zubia, F. Benito-Lopez, J. Villatoro, L. Basabe-Desmonts
Year:
2022
Journal:
Scientific Reports
Impact Factor:
4.38
Quartile:
Q1
Volume:
12, 9566
ISBN/ISSN:
2045-2322
DOI:
https://doi.org/10.1038/s41598-022-13707-y
Description:

Optical fiber-based Localized Surface Plasmon Resonance (OF-LSPR) biosensors have emerged as an ultra-sensitive miniaturized tool for a great variety of applications. Their fabrication by the chemical immobilization of gold nanoparticles (AuNPs) on the optic fiber end face is a simple and versatile method. However, it can render poor reproducibility given the number of parameters that influence the binding of the AuNPs. In order to develop a method to obtain OF-LSPR sensors with high reproducibility, we studied the effect that factors such as temperature, AuNPs concentration, fiber core size and time of immersion had on the number and aggregation of AuNPs on the surface of the fibers and their resonance signal. Our method consisted in controlling the deposition of a determined AuNPs density on the tip of the fiber by measuring its LSPR signal (or plasmonic signal, Sp) in real-time. Sensors created thus were used to measure changes in the refractive index of their surroundings and showed that, as the number of AuNPs on the probes increased, the changes in the Sp peak values were ever lower but the wavelength shifts were higher. These results highlighted the relationship between the sensor performance and its composition.