Solid-State Gas Sensors with Ni-Based Sensing Materials for Highly Selective Detecting NOx.

Precise monitoring of NO(x) concentrations in nitric oxide delivery systems is crucial to ensure the safety and well-being of patients undergoing inhaled nitric oxide (iNO) therapy for pulmonary arterial hypertension. Currently, NO(x) sensing in commercialized iNO instruments predominantly relies on chemiluminescence sensors, which not only drives up costs but also limits their portability. Herein, we developed solid-state gas sensors utilizing Ni-based sensing materials for effectively tracking the levels of NO and NO(2) in the NO delivery system. These sensors comprised of NiO-SE or (NiFe(2)O(4) + 30 wt.% Fe(2)O(3))-SE vs. Mn-based RE demonstrated high selectivity toward 100 ppm NO under the interference of 10 ppm NO(2) or 3 ppm NO(2) under the interference of 100 ppm NO, respectively. Meanwhile, excellent stability, repeatability, and humidity resistance were also verified for the proposed sensors. Sensing mechanisms were thoroughly investigated through assessments of adsorption capabilities and electrochemical reactivity. It turns out that the superior electrochemical reactivity of NiO toward NO, alongside the NO(2) favorable adsorption characteristics of (NiFe(2)O(4) + 30 wt.% Fe(2)O(3)), is the primary reason for the high selectivity to NO(x). These findings indicate a bright future for the application of these NO(x) sensors in innovative iNO treatment technologies.