A review of low-temperature H2S gas sensors: fabrication and mechanism

Detection of toxic gases such as hydrogen sulfide (H2S) at low temperatures is of high importance as it reduces power consumption, increases long-term stability, and lowers the danger of explosion in the presence of flammable gases. Among different gas sensors, chemiresistive metal oxide semiconductors sensors are the most popular type due to their low cost, high sensitivity, compact size, ease of use, and high thermal and mechanical stability. However, these sensors generally require a high operating temperature (>100 degrees C), attributed to their insufficient surface area. Hence, their pristine bulk structures cannot meet the requirements of low-temperature gas sensing. To overcome these limitations, the bulk structure of metal oxide sensors can be modified either geometrically or chemically. Herein, we comprehensively reviewed a wide range of metal oxide-based sensors for low-temperature H2S gas sensing. We highlighted the recent advances in the modifications of these sensors for enhanced gas sensing properties, such as high selectivity/sensitivity and fast response/recovery time.

Automated summary

The detection of toxic gases such as H2S at low temperatures is crucial for reducing power consumption and increasing stability, with chemiresistive metal oxide semiconductor sensors being popular due to their cost-effectiveness and sensitivity. However, modifications are needed to enable these sensors to function effectively at low temperatures.