| 近年主要研究成果
(1) P. Zheng, J. L. Zhang (通信作者), S. F. Shao, Y. Q. Tan, and Chunlei Wang, Piezoelectric properties and stabilities of CuO-modified Ba(Ti,Zr)O3 ceramics, Appl. Phys. Lett., (2008), L08-07611R2, accepted.
(2) 张宗,邵守福,张家良(通信作者),郑鹏,谭永强,王春雷, 强压电活性钛酸钡陶瓷材料的制备与物性机理,压电与声光, Vol. 30 suppl. No.1 (2008) 214-216.
(3) S. F. Shao, J. L. Zhang (通信作者), Z. Zhang, P. Zheng, M. L. Zhao, J. C. Li and C. L. Wang, High piezoelectric properties and domain configuration in BaTiO3 ceramics obtained through solid-state reaction route, J. Physics D: Appl. Phys., 41 (2008) 125408
(4) X. K. Niu, J. L. Zhang (通信作者), L. Wu, P. Zheng, M. L. Zhao and C. L. Wang, Crystalline Structural Phase Boundaries in (K,Na,Li)NbO3 Ceramics, Solid State Commun., 146 (2008), 395-395.
(5) L. Wu, J. L. Zhang (通信作者), C. L. Wang and J. C. Li, Influence of compositional ratio K/Na on physical properties in (KxNa1-x) NbO3 ceramics, J. Appl. Phys., 103 (2008) 084116.
(6) L. Wu, J. L. Zhang (通信作者), S. F. Shao, P. Zheng and C. L. Wang, Phase coexistence and high piezoelectric properties in (K0.40Na0.60)0.96Li0.04Nb0.80Ta0.20O3 ceramics, J. Physics D: Appl. Phys., 41 (2008) 035402.
(7) J. L. Zhang, P. Zheng, S. F. Shao, W. B. Su and C. L. Wang, Dielectric and Electrical Properties of CaCu3Ti4O12 Ceramics at High Temperatures, Ferroelectrics, 356 (2007) 85.
(8) S. F. Shao, J. L. Zhang (通信作者), P. Zheng, C. L. Wang, J. C. Li and M. L. Zhao, High permittivity and low dielectric loss in ceramics with the nominal compositions of CaCu3-xLa2x/3Ti4O12, Appl. Phys. Lett., 91 (2007) 042905.
(9) ... 近年主要研究成果
(1) P. Zheng, J. L. Zhang (通信作者), S. F. Shao, Y. Q. Tan, and Chunlei Wang, Piezoelectric properties and stabilities of CuO-modified Ba(Ti,Zr)O3 ceramics, Appl. Phys. Lett., (2008), L08-07611R2, accepted.
(2) 张宗,邵守福,张家良(通信作者),郑鹏,谭永强,王春雷, 强压电活性钛酸钡陶瓷材料的制备与物性机理,压电与声光, Vol. 30 suppl. No.1 (2008) 214-216.
(3) S. F. Shao, J. L. Zhang (通信作者), Z. Zhang, P. Zheng, M. L. Zhao, J. C. Li and C. L. Wang, High piezoelectric properties and domain configuration in BaTiO3 ceramics obtained through solid-state reaction route, J. Physics D: Appl. Phys., 41 (2008) 125408
(4) X. K. Niu, J. L. Zhang (通信作者), L. Wu, P. Zheng, M. L. Zhao and C. L. Wang, Crystalline Structural Phase Boundaries in (K,Na,Li)NbO3 Ceramics, Solid State Commun., 146 (2008), 395-395.
(5) L. Wu, J. L. Zhang (通信作者), C. L. Wang and J. C. Li, Influence of compositional ratio K/Na on physical properties in (KxNa1-x) NbO3 ceramics, J. Appl. Phys., 103 (2008) 084116.
(6) L. Wu, J. L. Zhang (通信作者), S. F. Shao, P. Zheng and C. L. Wang, Phase coexistence and high piezoelectric properties in (K0.40Na0.60)0.96Li0.04Nb0.80Ta0.20O3 ceramics, J. Physics D: Appl. Phys., 41 (2008) 035402.
(7) J. L. Zhang, P. Zheng, S. F. Shao, W. B. Su and C. L. Wang, Dielectric and Electrical Properties of CaCu3Ti4O12 Ceramics at High Temperatures, Ferroelectrics, 356 (2007) 85.
(8) S. F. Shao, J. L. Zhang (通信作者), P. Zheng, C. L. Wang, J. C. Li and M. L. Zhao, High permittivity and low dielectric loss in ceramics with the nominal compositions of CaCu3-xLa2x/3Ti4O12, Appl. Phys. Lett., 91 (2007) 042905.
(9) L. Wu, J. L. Zhang (通信作者), P. Zheng and C. L. Wang, Influences of morphotropic phase boundaries on physical properties in (K,Na,Li)Nb0.80Ta0.20O3 Ceramics, J. Physics D: Appl. Phys., 40 (2007) 3527-3530.
(10) S. F. Shao, J. L. Zhang (通信作者), P. Zheng and C. L. Wang, Effect of Cu-stoichiometry on the dielectric and electric properties in CaCu3Ti4O12 ceramics, Solid State Commun., 142 (2007) 281 |