Title :
CMOS Baseline Tracking and Cancellation Instrumentation for Nanoparticle-Coated Chemiresistors
Author :
Rairigh, D.J. ; Warnell, G.A. ; Chao Xu ; Zellers, E.T. ; Mason, A.J.
Author_Institution :
Michigan State Univ., East Lansing, MI, USA
Abstract :
Chemiresistor (CR) sensors and sensor arrays coated with thiolate-monolayer-protected gold nanoparticle (MPN) interfaces show great promise as detectors in gas-chromatographic microsystems with applications in biomedical and environmental analysis including breath biomarkers of disease. This paper describes a new readout circuit that overcomes the wide range of baseline resistances and drift in baseline values inherent to MPN-coated CRs to achieve a 57 ppm readout resolution. The 0.5-mum CMOS circuit operates at 5 V and provides a response resolution of 74 muV. It can cancel baseline voltages from 0.3 to 4.3 V with an accuracy of 4.2 mV and can track and compensate for drifts up to 30 mV/min. Performance was verified with MPN-coated CRs, where drift was measured and effectively cancelled. The circuit topology and size support an on-chip MPN-coated CR sensor array.
Keywords :
CMOS integrated circuits; biomedical electronics; biomedical engineering; chemical sensors; chromatography; gold; nanoparticles; network topology; readout electronics; resistors; Au; CMOS circuit; baseline voltage; chemiresistors; circuit topology; readout circuit; size 0.5 mum; thiolate-monolayer-protected gold nanoparticle; voltage 0.3 V to 4.3 V; voltage 5 V; Biochemical analysis; Biomarkers; Biosensors; Chemical and biological sensors; Chromium; Circuits; Detectors; Gold; Instruments; Sensor arrays; Baseline cancellation; chemiresistor; sensor array microsystem; volatile organic compounds;
Journal_Title :
Biomedical Circuits and Systems, IEEE Transactions on
DOI :
10.1109/TBCAS.2009.2023511
