Development of an optode-type chloride ion sensor utilizing optical fiber with silver film

Abstract

This study delves into the development and assessment of a new chloride ion sensor employing optical fiber technology. It investigates the response characteristics of Ag-coated optode sensors, with a specific focus on film thickness and concentration dependency. Experimental results indicate that while film thickness offers sensitivity advantages, they are susceptible to fluctuations and detachment, thereby impacting reliability. To address this, the study suggests methods for correcting intensity fluctuations and improving sensor performance through calibration curves and spectrum measurements. Moreover, experiments demonstrate potential for enhancing sensitivity and resolution at low concentrations. These results highlight the superiority of the optode sensor method over existing techniques, particularly in sensitivity and adaptability for chloride ion monitoring. The study significantly contributes to sensor technology advancement, offering improved precision and reliability for environmental monitoring and industrial process control.