Dr. Simanchalo Panigrahi

Education

Work Experience

Research Interests

• Material science
• Thin film
• Theoretical physics

Publications

1. An approach for correlating the structural and electrical properties of Zr4+-modified SrBi4Ti4O15/SBT ceramic. RSC Advances, 7(27), pp.16319-16331.
2. Development of mixed phase with improved dielectric and piezoelectric properties in Ca and Sn modified BaTiO3 ceramics. Journal of Alloys and Compounds, 983, p.173786.
3. Investigation of the structural, electrical, and magnetic behavior of Co3+-Ti4+ doped strontium hexaferrite: validation of measured and theoretical models. Journal of Materials Science: Materials in Electronics, 35(10), p.709.
4. Effect of reduced grain size on electric transport behaviour of BaFe12O19. Physica B: Condensed Matter, 699, p.416878.
5. Grain boundary-dominated electrical conduction and anomalous optical-phonon behaviour near the Neel temperature in YFeO3 ceramics. Journal of Applied Physics, 123(17).
6. Effect of Zn substitution on structural, magnetic and electric transport properties in inverse spinel NiFe2O4. Ceramics International, 50(23), pp.49587-49599.
7. Electrical and optical properties of four-layered perovskite ferroelectric ABi4Ti4O15 (with A= Sr, Ba, Ca). Materials Letters, 216, pp.54-57.
8. Structural and electromechanical study of Bi0.5Na0.5TiO3-BaTiO3 solid-solutions. Processing and Application of Ceramics, 7(2), pp.73-80.
9. Multiferroism of [Na0.5Bi0.5TiO3–BaFe12O19] lead-free novel composite systems. Materials Letters, 209, pp.280-283.
10. Observation of grain size effect on multiferroism and magnetoelectric coupling of Na0.5Bi0.5TiO3–BaFe12O19 novel composite system. Journal of Magnetism and Magnetic Materials, 444, pp.401-409.
11. Structure and dielectric properties of bismuth sodium titanate ceramic prepared by auto-combustion technique. Processing and Application of Ceramics, 7(3), pp.135-141.
12. Pattanayak, N., Das, P., Sahoo, M.R., Panda, P., Pradhan, M., Pradhan, K., Nayak, R., Patnaik, S.K. and Tripathy, S.K., 2025. Glucose Sensing Using Pristine and Co-Doped Hematite Fiber-Optic Sensors: Experimental and DFT Analysis. Langmuir, 41(13), pp.8866-8875.
13. Patnaik, S.K., Tripathy, S.K., Palai, G., Sahoo, S.K. and Satpathy, R., 2024. Modeling the optoelectronic properties of quantum dot-based perovskite structure for efficient solar cell. Journal of Optics, pp.1-6.
14. Dash, S.P., Patnaik, S.K. and Tripathy, S.K., 2019. Investigation of a low cost tapered plastic fiber optic biosensor based on manipulation of colloidal gold nanoparticles. Optics communications, 437, pp.388-391.
15. Patnaik, S.K., Triapthy, S.K. and Sahu, S.N., 2017. Synthesis and characterization of small size fluorescent LEEH caped blue emission ZnTe quantum dots. Mater. Sci. Poland, 35(1).
16. Mohapatra, S.K. and Patnaik, S., 2022. Automatic Detection of Epileptic Seizure Based on Differential Entropy, E-LS-TSVM, and AB-LS-SVM. In Intelligent and Cloud Computing: Proceedings of ICICC 2021 (pp. 385-392). Singapore: Springer Nature Singapore.
17. Mohapatra, S.K. and Patnaik, S., 2022. ESA-ASO: An enhanced search ability based atom search optimization algorithm for epileptic seizure detection. Measurement: Sensors, 24, p.100519.
18. Mohapatra, S.K. and Patnaik, S., 2022. A real-time automated epileptic seizure detection model for phenylketonuria patients using ANFIS, DWT, ST, CT and EGA. International Journal of Telemedicine and Clinical Practices, 3(4), pp.302-326.