Nanomaterials for Sensing:

Investigating the development and characterization of nanomaterials, such as nanoparticles, nanowires, and nanotubes, as the building blocks for highly sensitive sensors capable of detecting a wide range of analytes.

Quantum Dots and Plasmonic Sensors:

Focusing on quantum dot-based sensors and plasmonic sensors that utilize quantum effects and surface plasmon resonance for precise detection of molecules, ions, and biomolecules.

Nanomechanical Sensors:

Exploring the use of nanomechanical systems, such as cantilevers and nanowires, for sensing applications, including mass detection, force measurement, and gas sensing.

Biosensors at the Nanoscale:

Delving into the development of nanoscale biosensors for detecting biomolecules, pathogens, and disease markers, with potential applications in medical diagnostics and personalized healthcare.

Environmental Nanosensors:

Addressing the use of nano sensors for monitoring environmental parameters, including air and water quality, pollution levels, and the presence of hazardous substances.