References
- B. Aurivillius, ArkivKemi1. 54, 463 (1949).
- B. Aurivillius, ArkivKemi1. 58, 499 (1949).
- B. Aurivillius, ArkivKemi2. 37, 39 (1950).
- M. T. Montero, P. Millan, P. Duran-Martin, B. Jimenez, and A. Castro, Mat. Res. Bull. 33, 1103 (1998).
- T. Takenaka, and K. Sakata, J. Appl. Phy. 55, 1092 (1984).
- A. R. James, G. S. Kumar, S. V. Suryanarayana, and T. Bhimasankaram, Ferroelectrics. 189, 81 (1996).
- A. R. James, G. S. Kumar, S. V. Suryanarayana, and T. Bhimasankaram, Ferroelectrics. 216, 11 (1998).
- H. S. Schulman, M. Testorf, D. Damjanovic, and N. Setter, J. Am. Ceram. Soc. 79, 3124 (1996).
- I. M. Reaney, and D. Damjanovic, J. Appl. Phys. 80, 4223 (1996).
- O. Aucellio, J. F. Scott, and R. Ramesh, Phys. Today. 51, 2 (1998).
- K. Srinivas, and A. R. James, J. Appl. Phys. 86, 3885 (1999).
- Y. Shimakawa, Y. Kubo, Y. Nakagawa, T. Kamiyama, H. Asano, and F. Izumi, Phys. Rev. B. 61, 6559 (2000).
- S. Haifeng, Y. Caixia, L. Yinyin, T. Ting-Ao, and Z. Shantao, Integrated Ferroelectrics. 79(1), 187–193 (2006).
- C. Indrani, P. Neeraj, T. Amit, A. K. Jha, and S. K. Agarwal, Physica B: Condensed Matter. 407(24), 4712–4720 (2012).
- Sugandha, and A. K. Jha, Materials Research Bulletin. 48(4), 1553–1559 (2013).
- Sugandha, and A. K. Jha, Ceramics International. 39(8), 9397–9403 (2013).
- Sugandha, and A. K. Jha, Ferroelectrics. 447(1), 136–142 (2013).
- B. Rajesh Kannan, and B. Harihara Venkataraman, Ferroelectrics. 493(1), 110–119 (2016).
- Rizwana, and P. Sarah, Ferroelectrics. 467, 146–157 (2014).
- S. Mahboob, Rizwana, B. Prasad, and G. S. Kumar, Ferroelectrics. 486, 175–183 (2015).
- Rizwana, S. Mahboob, and P. Sarah, Ferroelectrics. 510(1), 87–94 (2017).
- Rizwana, T. Radha Krishna, A. R. James, and P. Sarah, Crys. Res. Tech. 42(7), 699–706 (2007).
- ANSI/IEEE Standards on Piezoelectricity. 176, 51–54 (1987).