Environmental pollution from chemicals in water and toxic gases in the air poses significant threats to human health, ecosystem balance, and global sustainability. Effective sensing and treatment of these pollutants are essential for ensuring public health protection, environmental preservation, and industrial safety. Early detection of chemical pollutants allows for timely intervention, preventing long-term contamination and minimizing environmental and health impacts. In addition, advanced adsorption and catalytic filtration techniques have shown great potential in efficiently removing pollutants and restoring water and air quality. The development of highly sensitive and selective sensing technologies combined with effective treatment methods provides a comprehensive solution for addressing environmental pollution challenges, supporting a cleaner and more sustainable future.

The Smart Biosensor Lab focuses on the development of carbon-based 3D filter systems integrated with catalytic nanomaterials and electrochemical techniques for efficient water treatment. Additionally, the lab is actively engaged in gas quality monitoring using colorimetric gas sensors and resistor-based gas sensors to enable real-time detection and assessment of air pollutants. This integrated approach aims to deliver high-performance environmental sensing and remediation solutions.