Enhanced low-concentration CO2 sensing performance for Sr- and Co-doped LaFeO3 thick film sensors by oxygen-enriched atmosphere after vacuum annealing

This study investigates the enhancement of low-concentration CO₂ sensing performance in Sr- and Co-doped LaFeO₃ (LFO) thick film sensors through a combined treatment involving vacuum annealing and oxygen-rich atmosphere exposure. La_0.8Sr_0.2FeO₃ (LSFO) and LaFe_0.8Co_0.2O₃ (LFCO) porous microspheres were synthesized via hydrothermal method and characterized using XRD, SEM, XPS, and Raman spectroscopy. The optimized LFCO sensor demonstrated a high response value of 1.158 at 110°C, with rapid response/recovery times and excellent moisture resistance. The improved sensitivity was attributed to increased surface oxygen vacancies from vacuum annealing, promoting oxygen adsorption and electron transfer with CO₂. First-principles calculations confirmed the role of O₂ adsorption in enhancing the number of transferred electrons for CO₂ molecules, thus improving gas sensing performance. This study presents a practical approach for developing cost-effective, high-performance CO₂ sensors with enhanced sensitivity and stability.