Title :
A Micro-Machined Optical Fiber Cantilever as a Miniaturized pH Sensor
Author :
Jun Li ; Albri, Frank ; Maier, Robert R. J. ; Wenmiao Shu ; Jining Sun ; Hand, Duncan P. ; MacPherson, William N.
Author_Institution :
Anhui Inst. of Opt. & Fine Mech., Hefei, China
Abstract :
A micro-cantilever fabricated using a combination of picosecond-laser machining and focused ion beam milling directly onto the end of a standard telecommunications optical fiber is demonstrated as a liquid pH sensor. Conventional pH meters typically require relatively large reaction volumes up to ~50 mL, which is not always convenient. The micro-scale nature of this sensor offers the potential for pH measurement on a smaller sample volume down to micro-liter. The fiber end-tip cantilever is coated with a pH sensitive layer, and the pH-induced deflection is monitored interfermetically. A detectable pH range from 4.0 to 10.0 is demonstrated for the cantilevers coated with 16-mercapto-hexadecanoic-1-acid as the functional layer, and a detectable pH range from 4.0 to 9.0 is demonstrated for the cantilevers coated with Al2O3 as the functional layer.
Keywords :
antireflection coatings; cantilevers; chemical sensors; fibre optic sensors; focused ion beam technology; laser beam machining; microfabrication; milling; optical fibre communication; optical fibre fabrication; optical films; organic compounds; pH measurement; 16-mercapto-hexadecanoic-1-acid; fiber end-tip cantilever coating; focused ion beam milling; microcantilever fabrication; micromachined optical fiber cantilever; miniaturized liquid pH sensor; pH measurement; pH meter; pH sensitive layer; pH-induced deflection; picosecond-laser machining; standard optical fiber telecommunication; Cavity resonators; Optical fiber sensors; Optical fibers; Temperature measurement; Temperature sensors; Focused ion beam; focused ion beam; optical fiber cantilever; pH sensing; ps-laser machining;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2015.2472971
