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Sivan, V and K, GN and Singh, RP and Augustine, P (2024) Relaxor dielectric response in titanium enriched 0.50 PMN � 0.50 PT ceramic. In: Ceramics International .
Sivan, V and Ravindran, K and Navya, SL and Augustine, P (2024) A Rudimentary Analysis on Room Temperature Multiferroic: Bismuth Ferrite. [Book Chapter]
Sivan, V and Jijo, EP and Tomy, T and Augustine, P (2023) Light-Energy Harvesting Using Two-Dimensional Transition Metal Dichalcogenide MoS2. [Book Chapter]
Ravindran, K and Johnson, VT and Rosemary, CJ and Jayasree, B and Augustine, P (2023) Piezoelectric Materials and Their Configurations for Energy-Harvesting Applications. [Book Chapter]
Manuja, M and Augustine, P and Jose, G (2023) The Smart Chromogenic Hydrated WO3 for Energy-Storage Applications. [Book Chapter]
Augustine, P (2023) Two-dimensional layered materials for efficient photodetection. [Book Chapter]
Augustine, P and Singh, DK and Kumawat, KL and Sivan, V and Krupanidhi, SB and Nanda, KK (2023) Dual-Polarity Switching in Self-Powered Ag/MoS2/Ag Photodetectors. In: ACS Applied Optical Materials, 1 (8). pp. 1396-1404.
Augustine, P and Anjaly, CL and Ravindran, K and Sivan, V (2022) Effect of Ni2+ dopant on the grain size, ferroelectric, dielectric, and piezoelectric properties of PMN-based ternary relaxor ceramic (PMN–PNN–PT). In: Applied Physics A: Materials Science and Processing, 128 (8).
Lal Kumawat, K and Augustine, P and Kumar Singh, D and Baba Krupanidhi, S and Kar Nanda, K (2022) A MoS2/CuO-based hybrid p-n junction for high-performance self-powered photodetection. In: Journal of Materials Chemistry C .
Kumawat, KL and Augustine, P and Singh, DK and Nanda, KK and Krupanidhi, SB (2022) Electrically Modulated Wavelength-Selective Photodetection Enabled by Mo S2/Zn O Heterostructure. In: Physical Review Applied, 17 (6).
Augustine, P and Kumawat, KL and Singh, DK and Krupanidhi, SB and Nanda, KK (2022) MoS2/SnO2heterojunction-based self-powered photodetector. In: Applied Physics Letters, 120 (18).
Augustine, P (2021) Realization of relaxor PMN-PT thin films using pulsed laser ablation. [Book Chapter]