Research Interest

• Synthesis and optimization of piezoelectric composite materials for improved energy harvesting efficiency.
• Development of novel composite structures for enhanced mechanical and piezoelectric properties.
• Investigate the effect of material composition and microstructure on energy harvesting performance.
• Integrate advanced simulation techniques to optimize the design of piezoelectric composites.
• Investigate multifunctional materials for combined energy harvesting and sensing capabilities.
• Investigate the influence of bio-sourced and bio-derived materials as additives to enhance the properties of smart materials.

Expertise

• Fabrication of Piezoelectric Composites and Optimization of Components.
• Expertise in mechanical characterization and data analysis of piezoelectric materials and composites.
• Advanced knowledge of SolidWorks for CAD modeling, including complex 3D assemblies, parametric design, FEA, and detailed engineering drawings.
• Impedance testing and extraction of dielectric and piezoelectric coefficients.
• 3D modeling simulation using COMSOL software for Multiphysics modeling of piezoelectric composites.
• Energy harvesting test methods include power density, voltage, and current measurements.
• XRD, FTIR, and SEM analysis for structural and compositional characterization of materials.