High Sensing Performance Toward Acetone Vapor Using TiO2 Flower-Like Nanomaterials

For real-application gas sensors, high performances (response, selectivity, response/recovery time and stability) are demanded. An effective strategy is applying nanomaterials in gas sensors. In this study, the anatase TiO 2 flower-like nanomaterials (FLNMs) are prepared through a one-step hydrothermal method which exhibit high-performance toward acetone vapor. TiO 2 FLNMs sensors property are characterized at optimal working temperature of 330 °C with selectivity (acetone), response ( S = 33.72 toward 250 ppm acetone), linear dependence ( R 2 = 0.9913), response/recovery time (46/24 s toward 250 ppm acetone) and long-term stability (30 days). These demonstrate that TiO 2 FLNMs get a high performance for acetone sensor. Moreover, the limit of detection of acetone is 0.65 ppm which is lower than that of exhaled air for diabetes (0.8 ppm), indicating that TiO 2 FLNMs gas sensor gets potential application in medical diagnosis.