Structural and electrical properties of Barium Titanate (BaTiO3) and Neodymium doped BaTiO3 (Ba0.995Nd0.005TiO3)

Tuan Amirah Tuan Sulong; Rozana Aina Maulat Osman; Mohd Sobri Idris; Zul Azhar Zahid Jamal

doi:10.1051/epjconf/201716201050

All issues

Volume 162 (2017)

EPJ Web Conf., 162 (2017) 01050

Abstract

Open Access

Issue		EPJ Web Conf. Volume 162, 2017 International Conference on Applied Photonics and Electronics 2017 (InCAPE2017)


Article Number		01050
Number of page(s)		6
DOI		https://doi.org/10.1051/epjconf/201716201050
Published online		22 November 2017

EPJ Web of Conferences 162, 01050 (2017)
https://doi.org/10.1051/epjconf/201716201050

Structural and electrical properties of Barium Titanate (BaTiO3) and Neodymium doped BaTiO₃ (Ba_0.995Nd_0.005TiO₃)

Tuan Amirah Tuan Sulong¹^,3^*, Rozana Aina Maulat Osman¹^,3, Mohd Sobri Idris²^,3 and Zul Azhar Zahid Jamal¹^,3

¹ School of Microelectronics Engineering, University Malaysia Perlis, 02600, Arau, Perlis, Malaysia
² School of Materials Engineering, University Malaysia Perlis, 01000, kangar, Perlis, Malaysia
³ COE Frontier Material Research Centre, School of Material Engineering, University Malaysia Perlis, 01000, Perlis, Malaysia

^* Corresponding author: rozana@unimap.edu.my

Published online: 22 November 2017

Abstract

Barium titanate (BaTiO₃) and Neodymium (Nd) doped BaTiO₃ with composition Ba_0.995Nd_0.005TiO₃ were prepared using conventional solid state reaction method to study the dielectric properties of materials. Pure phase samples were found at final heating temperature of 1400°C for overnight. X-ray diffraction analysis reveals the changes in the lattice parameter and unit cell volume of the pure perovskite tetragonal structure with space group (P4mm). Electrical analysis is carried out to investigate the dielectric properties, conductivity behaviour and dielectric loss of BaTiO₃ and Ba_0.995Nd_0.005TiO₃. Ba_0.995Nd_0.005TiO₃ have a broaden dielectric peaks with high permittivity of 8000 and reasonably low loss tan δ which is about 0.004 (1 kHz).

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