Signal-to-Noise Enhancement of a Nanospring Redox-Based Sensor by Lock-in Amplification

Signal-to-Noise Enhancement of a Nanospring Redox-Based Sensor by Lock-in Amplification

A significant improvement of the response characteristics of a redox chemical gas sensor (chemiresistor) constructed with a single ZnO coated silica nanospring has been achieved with the technique of lock-in signal amplification. The comparison of DC and analog lock-in amplifier (LIA) AC measurement...

Full description

Bibliographic Details
Main Authors: Pavel V. Bakharev, David N. McIlroy
Format: Article
Language:English
Published: MDPI AG 2015-06-01
Series:Sensors
Subjects:
MOS
gas sensor
ZnO
lock-in amplifier
Online Access:http://www.mdpi.com/1424-8220/15/6/13110
Description
Summary:A significant improvement of the response characteristics of a redox chemical gas sensor (chemiresistor) constructed with a single ZnO coated silica nanospring has been achieved with the technique of lock-in signal amplification. The comparison of DC and analog lock-in amplifier (LIA) AC measurements of the electrical sensor response to toluene vapor, at the ppm level, has been conducted. When operated in the DC detection mode, the sensor exhibits a relatively high sensitivity to the analyte vapor, as well as a low detection limit at the 10 ppm level. However, at 10 ppm the signal-to-noise ratio is 5 dB, which is less than desirable. When operated in the analog LIA mode, the signal-to-noise ratio at 10 ppm increases by 30 dB and extends the detection limit to the ppb range.
ISSN:1424-8220

Similar Items