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Artículos de revistas sobre el tema "Na0.5Bi0.5TiO3-BaTiO3-K0.5Na0.5NbO3"

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Autor: Grafiati
Publicado: 6 de septiembre de 2023

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1

Fu, Fang, Jiwei Zhai, Zhengkui Xu, Wangfeng Bai y Xi Yao. "Electric properties of high strain textured Na0.5Bi0.5TiO3–BaTiO3–K0.5Na0.5NbO3 thick films". Solid State Sciences 13, n.º 5 (mayo de 2011): 934–37. http://dx.doi.org/10.1016/j.solidstatesciences.2011.02.014.

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2

Plutenko, Tatiana y Oleg I. V'yunov. "Effect of Reoxidation Temperature on Electrophysical Properties of High-TC Barium Titanate-Based PTCR Ceramics". Solid State Phenomena 200 (abril de 2013): 311–15. http://dx.doi.org/10.4028/www.scientific.net/ssp.200.311.

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Ceramic samples of (1 x)BaTiO3–xNa0.5Bi0.5TiO3 system were prepared by sintering in reducing atmosphere of N2/H2 and were subsequently reoxidized in air. The influence of reoxidation temperature firing on the PTCR effect of (1 x)BaTiO3–xNa0.5Bi0.5TiO3 ceramics was investigated. The effect of Na0.5Bi0.5TiO3 concentration on resistivity and microstructure of the reoxidized samples was investigated by means of complex impedance spectroscopy and scanning electron microscopy. It has been found that the grain size decreases with the increase in Na0.5Bi0.5TiO3 content. The values of minimum ρmin and maximum ρmax resistivities of the samples were observed to increase with the increase in reoxidation temperature in the 600 – 1000°C temperature range. It was shown that with increasing in reoxidation temperature of (1-x)BaTiO3-xNa0.5Bi0.5TiO3 solid solutions, potential barrier at grain boundaries increases.
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3

GOMAH-PETTRY, J. R., P. MARCHET, A. SIMON, R. MÜHLL, M. MAGLIONE y J. P. MERCURIO. "Dielectric Properties of Na0.5Bi0.5TiO3 – BaTiO3 Ceramics". Integrated Ferroelectrics 61, n.º 1 (agosto de 2004): 155–58. http://dx.doi.org/10.1080/10584580490459080.

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4

Schmitt, Ljubomira Ana, Manuel Hinterstein, Hans-Joachim Kleebe y Hartmut Fuess. "Comparative study of two lead-free piezoceramics using diffraction techniques". Journal of Applied Crystallography 43, n.º 4 (22 de mayo de 2010): 805–10. http://dx.doi.org/10.1107/s0021889810015980.

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A comparative study of two distinct lead-free piezoceramics, (Bi0.5Na0.5TiO3)0.92–(BaTiO3)0.06–(K0.5Na0.5NbO3)0.02and (Bi0.5Na0.5TiO3)0.94–(BaTiO3)0.05–(K0.5Na0.5NbO3)0.01, termed 92-06-02 and 94-05-01, respectively, is presented. The samples were investigated by complementary diffraction techniques, namely X-ray, neutron and electron diffraction. Transmission electron microscopy (TEM) and powder diffraction experiments clearly revealed the presence of both rhombohedral and tetragonal phases in space groupsR3candP4bm, respectively. Superlattice reflections observed in the diffraction patterns were used to identify the two phases. It was found that sample 92-06-02, with a high proportion of the nonpolar tetragonal phase, shows a grainy contrast, whereas specimen 94-05-01 features domain-like contrast, related to a higher rhombohedral phase fraction. The combination of local scale analysesviaTEM with X-ray and neutron diffraction provides the experimental basis for further structural investigations.
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5

Jan, Saeed ullah, Aurang Zeb y Steven J. Milne. "Electrical Properties of Ca-modified Na0.5Bi0.5TiO3–BaTiO3 ceramics". Ceramics International 40, n.º 10 (diciembre de 2014): 15439–45. http://dx.doi.org/10.1016/j.ceramint.2014.06.107.

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6

Suchanicz, Jan, Irena Jankowska-Sumara y Tatiana V. Kruzina. "Raman and infrared spectroscopy of Na0.5Bi0.5TiO3 - BaTiO3 ceramics". Journal of Electroceramics 27, n.º 2 (20 de julio de 2011): 45–50. http://dx.doi.org/10.1007/s10832-011-9648-5.

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7

Ge, Wenwei, Chengtao Luo, Qinhui Zhang, Yang Ren, Jiefang Li, Haosu Luo y D. Viehland. "Evolution of structure in Na0.5Bi0.5TiO3 single crystals with BaTiO3". Applied Physics Letters 105, n.º 16 (20 de octubre de 2014): 162913. http://dx.doi.org/10.1063/1.4900547.

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8

Foronda, Humberto, Marco Deluca, Elena Aksel, Jennifer S. Forrester y Jacob L. Jones. "Thermally-induced loss of piezoelectricity in ferroelectric Na0.5Bi0.5TiO3–BaTiO3". Materials Letters 115 (enero de 2014): 132–35. http://dx.doi.org/10.1016/j.matlet.2013.10.041.

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9

Zhang, Weifeng y Ming Liu. "Research of Lead-free Na0.5Bi0.5TiO3-BaTiO3 System Piezoelectric Ceramics". Journal of Wuhan University of Technology-Mater. Sci. Ed. 38, n.º 2 (abril de 2023): 325–29. http://dx.doi.org/10.1007/s11595-023-2701-9.

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10

Zhao, Jiefeng, Minghe Cao, Zhijian Wang, Qi Xu, Lin Zhang, Zhonghua Yao, Hua Hao y Hanxing Liu. "Enhancement of energy-storage properties of K0.5Na0.5NbO3 modified Na0.5Bi0.5TiO3–K0.5Bi0.5TiO3 lead-free ceramics". Journal of Materials Science: Materials in Electronics 27, n.º 1 (14 de septiembre de 2015): 466–73. http://dx.doi.org/10.1007/s10854-015-3775-8.

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11

Zhang, Shan-Tao, Feng Yan, Bin Yang y Wenwu Cao. "Phase diagram and electrostrictive properties of Bi0.5Na0.5TiO3–BaTiO3–K0.5Na0.5NbO3 ceramics". Applied Physics Letters 97, n.º 12 (20 de septiembre de 2010): 122901. http://dx.doi.org/10.1063/1.3491839.

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12

Zhang, Shan-Tao, Alain Brice Kounga, Emil Aulbach, Helmut Ehrenberg y Jürgen Rödel. "Giant strain in lead-free piezoceramics Bi0.5Na0.5TiO3–BaTiO3–K0.5Na0.5NbO3 system". Applied Physics Letters 91, n.º 11 (10 de septiembre de 2007): 112906. http://dx.doi.org/10.1063/1.2783200.

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13

Li, Yueming, Wen Chen, Qing Xu, Jing Zhou y Xingyong Gu. "Piezoelectric and ferroelectric properties of Na0.5Bi0.5TiO3–K0.5Bi0.5TiO3–BaTiO3 piezoelectric ceramics". Materials Letters 59, n.º 11 (mayo de 2005): 1361–64. http://dx.doi.org/10.1016/j.matlet.2004.12.041.

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14

Ren, Pengrong, Jiale Wang, Yike Wang, Lalitha K. V. y Gaoyang Zhao. "Origin of enhanced depolarization temperature in quenched Na0.5Bi0.5TiO3-BaTiO3 ceramics". Journal of the European Ceramic Society 40, n.º 8 (julio de 2020): 2964–69. http://dx.doi.org/10.1016/j.jeurceramsoc.2020.02.039.

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15

Han, Yemei, Lingxia Li, Fang Wang, Yujie Yuan, Yinping Miao, Jinshi Zhao y Kailiang Zhang. "Electric-field switch of magnetization in BaTiO3–Na0.5Bi0.5TiO3–NiFe2O4 composite". Journal of Materials Science: Materials in Electronics 26, n.º 11 (21 de julio de 2015): 8261–66. http://dx.doi.org/10.1007/s10854-015-3489-y.

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16

Velchuri, Radha, B. Vijaya Kumar, V. Rama Devi, G. Prasad y M. Vithal. "Solid state metathesis synthesis of BaTiO3, PbTiO3, K0.5Bi0.5TiO3 and Na0.5Bi0.5TiO3". Ceramics International 36, n.º 4 (mayo de 2010): 1485–89. http://dx.doi.org/10.1016/j.ceramint.2009.12.026.

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17

Sun, Yue, Hanxing Liu, Hua Hao, Shujun Zhang, Liling Guo y Zhiyong Yu. "Effect of Na0.5Bi0.5TiO3 on dielectric properties of BaTiO3 based ceramics". Ceramics International 38 (enero de 2012): S41—S44. http://dx.doi.org/10.1016/j.ceramint.2011.04.045.

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18

Haji Jumali, Mohammad Hafizuddin, Siti Mariam Mohamad, Rozidawati Awang, Muhammad Yahaya, Mohd Riduan M. Said y Muhammad Mat Salleh. "Effect of Annealing Temperatures on Formation of Na0.5Bi0.5TiO3 and (Na0.5Bi0.5)0.96Ba0.04TiO3 Ceramics Prepared via Sol Gel Method". Advanced Materials Research 501 (abril de 2012): 76–80. http://dx.doi.org/10.4028/www.scientific.net/amr.501.76.

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The effect of annealing temperatures on the formation of pure perovskite Na0.5Bi0.5TiO3 (NBT) based ceramics prepared by sol gel method has been investigated. The NBT sol was prepared using NaCH3COO, C6H9BiO6 and Ti(C4H9)4 with 2-methoxyethanol and glacial acetic acid were used as solvents. The BaTiO3 sol was synthesized using C4H6BaO4 and Ti(C4H9)4 with acetic acid and ethanolamine were used as solvents. The (Na0.5Bi0.5)0.96Ba0.04TiO3 (NBBT) sol was prepared by mixing appropriate amount of NBT and BaTiO3 sols. Then NBT and NBBT sols were dried at 200oC for 24 h, ground and subsequently annealed at temperatures ranging from 440oC – 640oC for 5 min. Formation of NBT and NBBT ceramics was examined using XRD technique. X-ray diffractograms reveal that the NBT ceramic with rhombohedral structure starts to form at 540oC and complete crystallization is achieved at 620oC. Addition of 4vol% of BaTiO3 sols drastically reduces the crystallization temperature of NBBT ceramic to 460oC and a pure single phase ceramic is achieved at 520oC. Despite retaining the same rhombohedral structure, the NBBT exhibits lattice parameters expansion indicating a successful Ba substitution which is also confirms by the absence of BaTiO3 peaks in the diffractograms. Both ceramics exhibit great thermal stability with additional increment in annealing temperatures.
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19

Maurya, Deepam, Valeri Petkov, Ashok Kumar y Shashank Priya. "Nanostructured lead-free ferroelectric Na0.5Bi0.5TiO3–BaTiO3 whiskers: synthesis mechanism and structure". Dalton Transactions 41, n.º 18 (2012): 5643. http://dx.doi.org/10.1039/c2dt00045h.

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20

Zhao, Wei, Jing Ya, Ying Xin, Lie E, Dan Zhao y Heping Zhou. "Fabrication of Na0.5Bi0.5TiO3-BaTiO3-Textured Ceramics Templated by Plate-Like Na0.5Bi0.5TiO3Particles". Journal of the American Ceramic Society 92, n.º 7 (julio de 2009): 1607–9. http://dx.doi.org/10.1111/j.1551-2916.2009.03043.x.

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21

Li, Yueming, Wen Chen, Qing Xu, Jing Zhou, Xingyong Gu y Siqin Fang. "Electromechanical and dielectric properties of Na0.5Bi0.5TiO3–K0.5Bi0.5TiO3–BaTiO3 lead-free ceramics". Materials Chemistry and Physics 94, n.º 2-3 (diciembre de 2005): 328–32. http://dx.doi.org/10.1016/j.matchemphys.2005.05.009.

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22

Sun, Yue, Hanxing Liu, Hua Hao, Lin Zhang y Shujun Zhang. "The role of Co in the BaTiO3–Na0.5Bi0.5TiO3 based X9R ceramics". Ceramics International 41, n.º 1 (enero de 2015): 931–39. http://dx.doi.org/10.1016/j.ceramint.2014.08.140.

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23

Prado, A., J. Camargo, P. Öchsner, L. Ramajo y M. Castro. "Synthesis and characterization of Bi0.5Na0.5TiO3-BaTiO3-K0.5Na0.5NbO3 ceramics for energy storage applications". Journal of Electroceramics 44, n.º 3-4 (junio de 2020): 248–55. http://dx.doi.org/10.1007/s10832-020-00216-5.

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24

Ge, Wenwei, Hu Cao, Christopher DeVreugd, Jiefang Li, Dwight Viehland, Qinhui Zhang y Haosu Luo. "Influence of BaTiO3 Content on the Structure and Properties of Na0.5Bi0.5TiO3 Crystals". Journal of the American Ceramic Society 94, n.º 9 (17 de marzo de 2011): 3084–87. http://dx.doi.org/10.1111/j.1551-2916.2011.04433.x.

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25

Zhang, Qinhui, Yaoyao Zhang, Feifei Wang, Yaojin Wang, Di Lin, Xiangyong Zhao, Haosu Luo, Wenwei Ge y D. Viehland. "Enhanced piezoelectric and ferroelectric properties in Mn-doped Na0.5Bi0.5TiO3–BaTiO3 single crystals". Applied Physics Letters 95, n.º 10 (7 de septiembre de 2009): 102904. http://dx.doi.org/10.1063/1.3222942.

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26

He, Chongjun, Xiujie Yi, Tong Wu, Jiming Wang, Kongjun Zhu y Youwen Liu. "Wavelength dependence of refractive index in lead-free Na0.5Bi0.5TiO3–BaTiO3 single crystals". Optical Materials 36, n.º 12 (octubre de 2014): 2023–25. http://dx.doi.org/10.1016/j.optmat.2013.12.037.

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27

Pradhan, Dillip K., Hari Sankar Mohanty, Tapabrata Dam, Hitesh Borkar, K. K. Mishra, Ashok Kumar, Shrabanee Sen y Balaram Sahoo. "Crystal structure and ferroelectric properties of (1−x)Na0.5Bi0.5TiO3−x BaTiO3 ceramics". Acta Crystallographica Section A Foundations and Advances 73, a2 (1 de diciembre de 2017): C376. http://dx.doi.org/10.1107/s2053273317091975.

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28

Gao, Feng, Li-Hong Cheng, Rong-Zi Hong, Jia-Ji Liu, Yong-Hong Yao y Chang-Sheng Tian. "Fabrication and dielectric properties of textured Na0.5Bi0.5TiO3-BaTiO3 ceramics by RTGG method". Journal of Materials Science: Materials in Electronics 19, n.º 12 (12 de enero de 2008): 1228–32. http://dx.doi.org/10.1007/s10854-007-9547-3.

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29

Mohanty, Hari Sankar, Ashok Kumar, Balaram Sahoo, Pawan Kumar Kurliya y Dillip K. Pradhan. "Impedance spectroscopic study on microwave sintered (1 − x) Na0.5Bi0.5TiO3–x BaTiO3 ceramics". Journal of Materials Science: Materials in Electronics 29, n.º 8 (1 de febrero de 2018): 6966–77. http://dx.doi.org/10.1007/s10854-018-8683-2.

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30

Lin, Dunmin, K. W. Kwok y H. L. W. Chan. "Structure, dielectric, and piezoelectric properties of CuO-doped K0.5Na0.5NbO3–BaTiO3 lead-free ceramics". Journal of Applied Physics 102, n.º 7 (octubre de 2007): 074113. http://dx.doi.org/10.1063/1.2787164.

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31

Hribar, Uroš, Matjaž Spreitzer, Tadej Rojac y Jakob König. "Destabilization of the ferroelectric order in Na0.5Bi0.5TiO3–6 wt% BaTiO3 ceramics through doping". Journal of the European Ceramic Society 42, n.º 8 (julio de 2022): 3446–53. http://dx.doi.org/10.1016/j.jeurceramsoc.2022.03.003.

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32

Bai, Yang, Guang-Ping Zheng y San-Qiang Shi. "Abnormal electrocaloric effect of Na0.5Bi0.5TiO3–BaTiO3 lead-free ferroelectric ceramics above room temperature". Materials Research Bulletin 46, n.º 11 (noviembre de 2011): 1866–69. http://dx.doi.org/10.1016/j.materresbull.2011.07.038.

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33

He, Chongjun, Chenguang Deng, Jiming Wang, Xiaorong Gu, Tong Wu, Kongjun Zhu y Youwen Liu. "Crystal orientation dependent optical transmittance and band gap of Na0.5Bi0.5TiO3–BaTiO3 single crystals". Physica B: Condensed Matter 483 (febrero de 2016): 44–47. http://dx.doi.org/10.1016/j.physb.2015.12.023.

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34

Sun, Renbing, Qinhui Zhang, Bijun Fang, Jie Jiao, Xiaobing Li, Xiangyong Zhao, Di Lin, Dong Wang y Haosu Luo. "Dielectric, electromechanical coupling properties of Mn-doped Na0.5Bi0.5TiO3–BaTiO3 lead-free single crystal". Applied Physics A 103, n.º 1 (17 de agosto de 2010): 199–205. http://dx.doi.org/10.1007/s00339-010-5994-4.

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35

Huang, T., P. Zhang, L. P. Xu, C. Chen, J. Z. Zhang, H. S. Luo y J. H. Chu. "Electronic structures and abnormal phonon behaviors of cobalt-modified Na0.5Bi0.5TiO3-6%BaTiO3 single crystals". AIP Advances 6, n.º 10 (octubre de 2016): 105311. http://dx.doi.org/10.1063/1.4966910.

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36

Ge, Wenwei, Hong Liu, Xiangyong Zhao, Xiaoming Pan, Tianhou He, Di Lin, Haiqing Xu y Haosu Luo. "Growth and characterization of Na0.5Bi0.5TiO3–BaTiO3 lead-free piezoelectric crystal by the TSSG method". Journal of Alloys and Compounds 456, n.º 1-2 (mayo de 2008): 503–7. http://dx.doi.org/10.1016/j.jallcom.2007.02.120.

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37

Su, Shi, Ruzhong Zuo y Danya Lv. "Densification and texture evolution of Bi4Ti3O12 templated Na0.5Bi0.5TiO3–BaTiO3 ceramics: Effects of excess Bi2O3". Journal of Alloys and Compounds 519 (abril de 2012): 25–28. http://dx.doi.org/10.1016/j.jallcom.2011.11.061.

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38

Chen, Wen, Yueming Li, Qing Xu y Jing Zhou. "Electromechanical Properties and Morphotropic Phase Boundary of Na0.5Bi0.5TiO3-K0.5Bi0.5TiO3-BaTiO3 Lead-free Piezoelectric Ceramics". Journal of Electroceramics 15, n.º 3 (diciembre de 2005): 229–35. http://dx.doi.org/10.1007/s10832-005-3301-0.

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39

Devi, Ch Sameera, M. Buchi Suresh, G. S. Kumar y G. Prasad. "High-temperature complex impedance and modulus spectroscopic studies of doped Na0.5Bi0.5TiO3-BaTiO3 ferroelectric ceramics". Ionics 22, n.º 12 (1 de agosto de 2016): 2363–77. http://dx.doi.org/10.1007/s11581-016-1781-3.

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40

Gao, Feng, Rong-zi Hong, Jia-ji Liu, Yong-hong Yao y Chang-sheng Tian. "Effect of different templates on microstructure of textured Na0.5Bi0.5TiO3–BaTiO3 ceramics with RTGG method". Journal of the European Ceramic Society 28, n.º 10 (enero de 2008): 2063–70. http://dx.doi.org/10.1016/j.jeurceramsoc.2008.02.006.

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41

Kuruvila, Krupa Maria, D. Dhayanithi y N. V. Giridharan. "Investigation of structural and enhanced piezoelectric properties in low lead content Na0.5Bi0.5TiO3-BaTiO3-PbTiO3 system". Journal of Alloys and Compounds 897 (marzo de 2022): 163195. http://dx.doi.org/10.1016/j.jallcom.2021.163195.

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42

Maurya, Deepam, Yuan Zhou, Yongke Yan y Shashank Priya. "Synthesis mechanism of grain-oriented lead-free piezoelectric Na0.5Bi0.5TiO3–BaTiO3 ceramics with giant piezoelectric response". Journal of Materials Chemistry C 1, n.º 11 (2013): 2102. http://dx.doi.org/10.1039/c3tc00619k.

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43

Li, Lingxia y Bowen Zhang. "The effect of bimodal model on the ultra-broad temperature stable BaTiO3–Na0.5Bi0.5TiO3–Nb2O5 system". Scripta Materialia 114 (marzo de 2016): 170–74. http://dx.doi.org/10.1016/j.scriptamat.2015.08.024.

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44

Zhang, Haiwu, Qinhui Zhang, Xiangyong Zhao, Xiaobing Li, Dong Wang y Haosu Luo. "Optical dispersion and interband transition in Na0.5Bi0.5TiO3-x%BaTiO3 lead-free relaxor ferroelectric single crystals". Applied Physics Letters 102, n.º 20 (20 de mayo de 2013): 202904. http://dx.doi.org/10.1063/1.4807791.

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45

Wang, Yaojin, Xiangyong Zhao, Jie Jiao, Qinhui Zhang, Wenning Di, Haosu Luo, Chung Ming Leung y Siu Wing Or. "Lead-free magnetoelectric laminated composite of Mn-doped Na0.5Bi0.5TiO3–BaTiO3 single crystal and Tb0.3Dy0.7Fe1.92 alloy". Journal of Alloys and Compounds 496, n.º 1-2 (abril de 2010): L4—L6. http://dx.doi.org/10.1016/j.jallcom.2010.02.029.

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46

Zhang, Shan-Tao, Alain Brice Kounga, Emil Aulbach, Wook Jo, Torsten Granzow, Helmut Ehrenberg y Jürgen Rödel. "Lead-free piezoceramics with giant strain in the system Bi0.5Na0.5TiO3–BaTiO3–K0.5Na0.5NbO3. II. Temperature dependent properties". Journal of Applied Physics 103, n.º 3 (febrero de 2008): 034108. http://dx.doi.org/10.1063/1.2838476.

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47

Jiang, Chao, Dou Zhang, Kechao Zhou, Haixue Yan, Hangfeng Zhang y Isaac Abrahams. "Topochemical transformation of two-dimensional single crystalline Na0.5Bi0.5TiO3–BaTiO3 platelets from Na0.5Bi4.5Ti4O15 precursors and their piezoelectricity". Journal of Materials Chemistry A 5, n.º 30 (2017): 15780–88. http://dx.doi.org/10.1039/c7ta01591g.

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48

Ge, Wenwei, Hu Cao, Jiefang Li, D. Viehland, Qinhui Zhang y Haosu Luo. "Influence of dc-bias on phase stability in Mn-doped Na0.5Bi0.5TiO3-5.6 at. %BaTiO3 single crystals". Applied Physics Letters 95, n.º 16 (19 de octubre de 2009): 162903. http://dx.doi.org/10.1063/1.3253412.

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49

Mishra, Anupam, Dipak Kumar Khatua, Arnab De y Rajeev Ranjan. "Off-stoichiometry, structural-polar disorder and piezoelectricity enhancement in pre-MPB lead-free Na0.5Bi0.5TiO3-BaTiO3 piezoceramic". Journal of Applied Physics 125, n.º 21 (7 de junio de 2019): 214101. http://dx.doi.org/10.1063/1.5089123.

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Praharaj, S., D. Rout, S. J. L. Kang y I. W. Kim. "Large electric field induced strain in a new lead-free ternary Na0.5Bi0.5TiO3-SrTiO3-BaTiO3 solid solution". Materials Letters 184 (diciembre de 2016): 197–99. http://dx.doi.org/10.1016/j.matlet.2016.08.076.

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