V. B. Jayakrishnan, S. K. Mishra & P. U. Sastry. (2023)
Temperature-driven structural phase transitions in 0.05(Na
0.50
Bi
0.50
)TiO
3
-0.95NaNbO
3
solid solution via amplitude mode analysis
. Europhysics Letters 143:4, pages 46003.
Crossref
V.B. Jayakrishnan, S.K. Mishra, A.B. Shinde, S. Wajhal, P.S.R. Krishna & P.U. Sastry. (2023) A combined powder x-ray and neutron diffraction studies on (1-x) NaNbO3-x Na0.50Bi0.50TiO3 solid solution. Journal of Solid State Chemistry 322, pages 123996.
Crossref
N. M. Ospelnikov & E. V. Barabanova. (2023) Phase Transitions in Na(Nb0.9Me0.1)O3–δ (Me = Bi, Fe) Solid Solutions. Bulletin of the Russian Academy of Sciences: Physics 87:4, pages 473-476.
Crossref
D. Giraldo, P. Almodóvar, M.L. López, E. Rodríguez-Aguado, E. Rodríguez-Castellón, A. Galdámez & I. Álvarez-Serrano. (2021) Exploring multiferroicity in BiFeO3 - NaNbO3 thermistor electroceramics. Journal of the European Ceramic Society 41:14, pages 7069-7076.
Crossref
Bhagyashree Mohanty, S. Bhattacharjee, S.N. Sarangi, N.C. Nayak, R.K. Parida & B.N. Parida. (2021) Dielectric, electrical and magnetic characteristics of BST modified BLFO lead free ceramic. Journal of Alloys and Compounds 863, pages 158060.
Crossref
S. I. Raevskaya, S. P. Kubrin, Jian Zhuang, I. P. Raevski, M. A. Malitskaya, I. N. Zakharchenko, M. S. Panchelyuga & V. V. Titov. (2020)
Mössbauer and magnetization studies of magnetic phase transitions in 0.5BiFeO
3
–0.5NaNbO
3
and 0.5LaFeO
3
–0.5NaNbO
3
solid solutions
. Journal of Advanced Dielectrics 10:01n02, pages 2060005.
Crossref
I. P. Raevski, A. A. Gusev, V. P. Isupov, M. A. Evstigneeva, S. I. Raevskaya, A. G. Lutokhin, S. P. Kubrin, I. N. Zakharchenko, Y. A. Kuprina, V. V. Titov, M. A. Malitskaya, G. R. Li & O. A. Bunina. 2019. Advanced Materials. Advanced Materials
47
60
.
Y. Saad, I. Álvarez-Serrano, M.L. López & M. Hidouri. (2018) Dielectric response and thermistor behavior of lead-free x NaNbO3 - (1-x) BiFeO3 electroceramics. Ceramics International 44:15, pages 18560-18570.
Crossref
F. Mizouri, I. Kallel, N. Abdelmoula, D. Mezzane & H. Khemakhem. (2018) Structural dielectric and magnetic properties of (1-x)BiFeO3-xBa0.9Ca0.1Ti0.9Sn0.1O3 ceramics. Journal of Alloys and Compounds 731, pages 458-464.
Crossref
I. P. Raevski, Yu. A. Kuprina, I. N. Zakharchenko, A. A. Gusev, V. P. Isupov, O. A. Bunina, V. V. Titov, S. I. Raevskaya, M. A. Malitskaya, A. V. Blazhevich, S. V. Orlov & E. I. Sitalo. 2018. Advanced Materials. Advanced Materials
209
224
.
S. I. Raevskaya, S. P. Kubrin, A. V. Pushkarev, N. M. Olekhnovich, Y. V. Radyush, V. V. Titov, H. Chen, C.-C. Chou, M. A. Malitskaya, I. P. Raevski, V. V. Stashenko & D. A. Sarychev. 2018. Advanced Materials. Advanced Materials
195
208
.
Manojit De, Shiv P. Patel & H. S. Tewari. (2017) Strain induced structural phase transition in NaNbO3 doped BiFeO3. Journal of Materials Science: Materials in Electronics 28:9, pages 6928-6935.
Crossref
P. Teslenko, Anatoly V. Pavlenko, Larisa A. Reznichenko, A. G. Rudskaya, N. Kofanova, Y. Kabirov, E. Chebanova, S. Chagovets, A. Shevchuk, E. Ananyeva & M. F. Kupriyanov. 2017. Advanced Materials. Advanced Materials
133
144
.
Sumit K. Roy, S. Chaudhuri, R.K. Kotnala, D.K. Singh, B.P. Singh, S.N. Singh, K.P. Chandra & K. Prasad. (2016)
Dielectric and Raman studies of Ba
0.06
(Na
1/2
Bi
1/2
)
0.94
TiO
3
–NaNbO
3
ceramics
. Materials Science-Poland 34:2, pages 437-445.
Crossref
Rehana P. Ummer, P. Sreekanth, B. Raneesh, Reji Philip, Didier Rouxel, Sabu Thomas & Nandakumar Kalarikkal. (2015)
Electric, magnetic and optical limiting (short pulse and ultrafast) studies in phase pure (1 − x)BiFeO
3
–xNaNbO
3
multiferroic nanocomposite synthesized by the pechini method
. RSC Advances 5:82, pages 67157-67164.
Crossref
H. Khelifi, M. Zannen, N. Abdelmoula, D. Mezzane, A. Maalej, H. Khemakhem & M. Es-Souni. (2012) Dielectric and Magnetic properties of (1−x)BiFeO3–xBa0.8Sr0.2TiO3 ceramics. Ceramics International 38:7, pages 5993-5997.
Crossref
P. Yu. Teslenko, Yu. V. Kabirov, O. N. Razumovskaya & L. A. Reznichenko. (2011) Phase states in solid solutions based on BiFeO3. Bulletin of the Russian Academy of Sciences: Physics 75:8, pages 1133-1135.
Crossref