Fundamentals of Solid-State Physics.- Defects in Electroceramics.- PREPARATION OF CERAMICS: DIFFERENT APPROACHES.-Emerging Strategies for Electroceramic Preparation: Contemporary Methods and Novel Techniques.- Foundations of Ceramic Synthesis: Processes, Principles, and Potential Biomedical Prospects.- Thin film preparation of Electroceramics.- FUNDAMENTAL CHARACTERIZATION TECHNIQUES: IMPEDANCE AND MODULUS SPECTROSCOPY.- Defect Engineering for Tailoring Thermoelectric Properties of Electroceramics.

- Role of Electroceramics in Renewable Energy Technologies.- Structural Perspective on Multifunctional Oxide Materials.- Bioactive glass for biomedical application: an overview.- Bulk Metallic Glasses: Effect of Various Temperatures with Nature of Constituent elements in Zr-Al/Ti-Ni-Cu BMGs.- Microwave Dielectric Properties of Electroceramics.- Microwave dielectric resonator antenna using electroceramics- A Perspective.- Electroceramics-based materials for sensor technology.- Piezoelectric, Pyroelectric, and Dielectric Properties of PZT: Nylon 11 and Graphite Doped PZT: Nylon11 Composites.

- Pyroelectric Properties of Electroceramics.- HEXAFERRITE COMPOSITE-BASED MATERIALS: POTENTIAL APPLICATIONS.- FUTURE PERSPECTIVES OF ELECTROCERAMICS.