A porous glass-based KI/a-CD chip for ozone sensing: Improvement in the humidity response of the chip through optimizing reagent concentrations in the impregnation process

A porous glass-based KI/a-CD chip for ozone sensing: Improvement in the humidity response of the chip through optimizing reagent concentrations in the impregnation process

To improve the performance of our previously-reported KI/α-CD ozone sensing chip, the present work carried out a series of experiments based on exposing these chips to ozone under static conditions. This device was confirmed to operate on a passive principle by monitoring the absorption at 360 nm du...

Full description

Saved in:
Bibliographic Details
Published in:Sensors and actuators. B, Chemical Vol. B268; p. 1
Main Authors: Izumi, Katsuyuki, Utiyama, Masahiro, Maruo, Yasuko Y
Format: Journal Article
Language:English
Published: Lausanne Elsevier Science Ltd 01-09-2018
Subjects:
Chemical reactions
Chip formation
Chips
Detection
Exposure
Humidity
Optimization
Ozone
Performance enhancement
Porous materials
Potassium
Reagents
Submerging
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:To improve the performance of our previously-reported KI/α-CD ozone sensing chip, the present work carried out a series of experiments based on exposing these chips to ozone under static conditions. This device was confirmed to operate on a passive principle by monitoring the absorption at 360 nm due to the formation of a clathrate complex of α-CD with triiodide ions generated by the reaction of O3 with KI on a porous glass surface. The sensing capabilities of chips fabricated under different conditions were evaluated by plotting absorbance at 360 nm against total ozone exposure, and KI and α-CD concentrations of 104 and 19.4 mM, respectively, in the immersion solution employed during fabrication were found to be optimal. The data also show that chips prepared by immersion in this solution are as sensitive (based on a 3 ppb limit of detection with a 1 h exposure) at 90% RH as the previously-reported units, and that the performance of the present chips is unchanged over the RH range of 37% to 80%.
ISSN:0925-4005
1873-3077