Sub PPM Detection of NO(2) Using Strontium Doped Bismuth Ferrite Nanostructures

The present work investigates the NO(2) sensing properties of acceptor-doped ferrite perovskite nanostructures. The Sr-doped BiFeO(3) nanostructures were synthesized by a salt precursor-based modified pechini method and characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), and X-ray photoelectron spectroscopy (XPS). The synthesized materials were drop coated to fabricate chemoresistive gas sensors, delivering a maximum sensitivity of 5.2 towards 2 ppm NO(2) at 260 °C. The recorded values of response and recovery time are 95 s and 280 s, respectively. The sensor based on Bi(0.8)Sr(0.2)FeO(3–δ) (BSFO) that was operated was shown to have a LOD (limit of detection) as low as 200 ppb. The sensor proved to be promising for repeatability and selectivity measurements, indicating that the Sr doping Bismuth ferrite could be a potentially competitive material for sensing applications. A relevant gas-sensing mechanism is also proposed based on the surface adsorption and reaction behavior of the material.