Selectivity enhancement of SiC-FET gas sensors by combining temperature and gate bias cycled operation using multivariate statistics

• Published in: Sensors and actuators. B, Chemical Vol. 193; pp. 931 - 940
• Main Authors: Bur, Christian, Bastuck, Manuel, Lloyd Spetz, Anita, Andersson, Mike, Schütze, Andreas
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.03.2014
• Subjects: Bias; Cycles; Feature extraction; Field effect transistors; Gate bias modulation; Gates; Modulation; Pattern recognition; Selectivity; Sensors; SiC-FET; Statistics; TECHNOLOGY; TEKNIKVETENSKAP; Temperature modulation; Feature extraction; SiC-FET; Gate bias modulation; Selectivity; Pattern recognition; Temperature modulation
• ISSN: 0925-4005; 1873-3077; 1873-3077
• DOI: 10.1016/j.snb.2013.12.030

•Combination of temperature and gate bias modulation is presented.•Significant features describing the shape of the sensor response have been selected.•Linear Discriminant Analysis (LDA) is used for data evaluation.•Selectivity of the sensor can be increased by our suggested approach.•Discrimination of CO, NO2 and NH3 independent of the concentration is possible. In this paper temperature modulation and gate bias modulation of a gas sensitive field effect transistor based on silicon carbide (SiC-FET) are combined in order to increase the selectivity. Data evaluation based on extracted features describing the shape of the sensor response was performed using multivariate statistics, here by Linear Discriminant Analysis (LDA). It was found that both temperature cycling and gate bias cycling are suitable for quantification of different concentrations of carbon monoxide. However, combination of both approaches enhances the stability of the quantification, respectively the discrimination of the groups in the LDA scatterplot. Feature selection based on the stepwise LDA algorithm as well as selection based on the loadings plot has shown that features both from the temperature cycle and from the bias cycle are equally important for the identification of carbon monoxide, nitrogen dioxide and ammonia. In addition, the presented method allows discrimination of these gases independent of the gas concentration. Hence, the selectivity of the FET is enhanced considerably.