Title: Enhancing Operational Current in Organic Semiconductor-Based Gas Sensors through Doping Strategy.
Gas sensors are vital components across industries, agriculture, environmental monitoring, automotive emissions control, and medical diagnosis. Organic semiconductor-based gas sensors offer heightened sensitivity, making them ideal for real-time detection in portable, user-friendly, and cost-effective setups. Despite their advantages, their operational current tends to be lower than inorganic counterparts due to organic materials’ amorphous nature and lower carrier mobility. This limitation potentially hampers their application in specific domains.
This presentation delves into leveraging doping strategies, akin to those in OLEDs and OPVs, to amplify the performance of organic gas sensors. Such approaches hold promise for enhancing operational current significantly, thereby reducing hardware requirements in measurement systems. This has the potential to revolutionize the way we detect and monitor diseases and pollutants.
