Low-Temperature Hydrogen Sensor: Enhanced Performance Enabled Through Photoactive Pd-Decorated Tio2 Colloidal Crystals

The high demand for H-2 gas sensors is not just limited to industrial process control and leak detection applications but also extends to the food and medical industry to determine the presence of various types of bacteria or underlying medical conditions. For instance, sensing of H-2 at low concentrations (<10 ppm) is essential for developing breath analyzers for the noninvasive diagnosis of some gastrointestinal diseases. However, there are major challenges to overcome in order to achieve high sensitivity and hence low limit of detection (LoD) toward H-2. In this study, it is demonstrated that lightassisted amperometric gas sensors employing sensitive layers based on Pd-decorated TiO2 long-range ordered crystals can achieve excellent H-2 sensing performance. This unique combination of materials and novel layered structure enables the detection of H-2 gas down to 50 ppm with highly promising LoD capabilities. The sensor response profiles revealed that the sensor's signal-to-noise ratio was higher in the presence of light when operated with a 9 V bias (relative to other conditions used), producing a LoD of only 3.5 ppm at an operating temperature of 33 degrees C. The high performance of the sensor makes it attractive for applications that require low-level (ppm as opposed to conventional % levels) H-2 gas detection. Most importantly, the developed sensor exhibited high selectivity (>93%) toward H-2 over other gas species such as CO2, C4H8O, C3H6O, CH3CHO, and NO, which are commonly found to coexist in the environment.