What we do? – Nanoscience and Functional Materials

We develop materials with unique chemical, optical, electrical, and mechanical properties for real-world applications, particularly in:

Energy conversion and harvesting (photovoltaics, organic solar cells, photothermal systems, plasmonic sensors)
Environmental sustainability (Photocatalysts for water and air purification, carbon-based materials for gas separation)
Biomaterials and Healthcare technologies (magnesium-based implants, antibacterial surfaces)
Structural and protective materials (Anti-corrosion coatings, polymer-green composites)

We emphasize materials-by-design approaches, linking structure–property–performance relationships, aiming at scalable fabrication for practical implementation.

Our expertise spans:

Synthesis
Wet chemical routes, sol–gel, hydrothermal methods, electrodeposition, surface functionalization

Fabrication
Spin coating, electrospinning, 3D printing, Plasma Electrolytic Oxidation (PEO), thin–thick film processing, composite engineering

Characterization
Structural, chemical, optical, electrochemical, and mechanical performance analysis

We bring together professors and emerging scholars to design materials with tailored chemical, optical, electrical, and mechanical functionalities — bridging fundamental science and real-world impact.

At NANOFUNmat, we believe that materials innovation is key to solving global challenges.