Synthesis and Dielectric Characterization of Barium Substituted Strontium Bismuth Niobate Layered Perovskite Oxides
H. Tewari, and A. Pati. International Journal of Recent advances in Physics (IJRAP), 2 (4):
8(November 2019)
Abstract
The strontium bismuth niobate, SrBi2Nb2O9 (SBN) is a bismuth layered perovskite oxide
compound with potentially useful ferroelectric properties which offer several advantages such as fatigue
free, lead free, low operating voltages, relatively high Curie temperature; and most importantly, their
ferroelectric properties are independent of film thickness. These materials are also important for Fe-RAM
applications having large remanent polarization and low coercivity accompanied by high Curie
temperature for better performance and reliable operation. Present paper describes synthesis, dielectric
properties and impedance studies to reveal the important properties of barium substituted strontium
bismuth niobate, Sr0.85Ba0.15Bi2Nb2O9 in the system Sr1-xBaxBi2Nb2O9(x=0.15).
%0 Journal Article
%1 noauthororeditor
%A Tewari, H. S.
%A Pati, Anupam
%D 2019
%J International Journal of Recent advances in Physics (IJRAP)
%K Aurivillius Bismuth Ferroelectrics Impedance Space charge compounds layered polarization spectroscopy type
%N 4
%P 8
%T Synthesis and Dielectric Characterization of Barium Substituted Strontium Bismuth Niobate Layered Perovskite Oxides
%U http://wireilla.com/physics/ijrap/papers/2413ijrap03.pdf
%V 2
%X The strontium bismuth niobate, SrBi2Nb2O9 (SBN) is a bismuth layered perovskite oxide
compound with potentially useful ferroelectric properties which offer several advantages such as fatigue
free, lead free, low operating voltages, relatively high Curie temperature; and most importantly, their
ferroelectric properties are independent of film thickness. These materials are also important for Fe-RAM
applications having large remanent polarization and low coercivity accompanied by high Curie
temperature for better performance and reliable operation. Present paper describes synthesis, dielectric
properties and impedance studies to reveal the important properties of barium substituted strontium
bismuth niobate, Sr0.85Ba0.15Bi2Nb2O9 in the system Sr1-xBaxBi2Nb2O9(x=0.15).
@article{noauthororeditor,
abstract = {The strontium bismuth niobate, SrBi2Nb2O9 (SBN) is a bismuth layered perovskite oxide
compound with potentially useful ferroelectric properties which offer several advantages such as fatigue
free, lead free, low operating voltages, relatively high Curie temperature; and most importantly, their
ferroelectric properties are independent of film thickness. These materials are also important for Fe-RAM
applications having large remanent polarization and low coercivity accompanied by high Curie
temperature for better performance and reliable operation. Present paper describes synthesis, dielectric
properties and impedance studies to reveal the important properties of barium substituted strontium
bismuth niobate, Sr0.85Ba0.15Bi2Nb2O9 in the system Sr1-xBaxBi2Nb2O9(x=0.15).},
added-at = {2019-07-19T08:53:12.000+0200},
author = {Tewari, H. S. and Pati, Anupam},
biburl = {https://www.bibsonomy.org/bibtex/227d172060af2afcc66b1ee5a812e3435/johnkenadi1985},
interhash = {41196e212991d561c7751d233cb58447},
intrahash = {27d172060af2afcc66b1ee5a812e3435},
issn = {2201-1056},
journal = {International Journal of Recent advances in Physics (IJRAP) },
keywords = {Aurivillius Bismuth Ferroelectrics Impedance Space charge compounds layered polarization spectroscopy type},
language = {English},
month = {November},
number = 4,
pages = 8,
timestamp = {2019-07-19T08:53:12.000+0200},
title = {Synthesis and Dielectric Characterization of Barium Substituted Strontium Bismuth Niobate Layered Perovskite Oxides},
url = {http://wireilla.com/physics/ijrap/papers/2413ijrap03.pdf},
volume = 2,
year = 2019
}