Position: professor

Tel:

E-mail:  brook76@fzu.edu.cn

Research Interests: Multiferroic materials, Microwave  dielectric ceramics, Energy storage dielectric materials, Variastor

Education Background

1995.9-1999.7:  Central South University, Changsha, China

Bachelor in  Materials Science & Engineering

1999.9-2004.6:ZhejiangUniversity,Hangzhou,China

Ph.D in  Materials Science

Research Experience

2004..7-2007.7    Lecturer,FuzhouUniversity, Fuzhou, China

2007..8-2013.7    Associate Professor, Fuzhou University, Fuzhou, China

2013..7-        Professor,FuzhouUniversity, Fuzhou, China

Project

1)    High-K  microwave dielectric ceramics, Fuzhou University Science  Foundation, No.XJY0413.

2)    Low  temperature sintering of lead-free high-K microwave dielectric ceramics, Fujian Science Fund for Young Scholars, No.2005J012

3)    Research of microwave dielectric  ceramics applied for LNB of Ku band, Science  and Technology Major Project of FujianProvince,  No.2005HZ02-3.

4)      Research of  CaTiO₃-based middle-K and high-Q  microwave dielectric ceramics, Program forFujianprovince development and reform  commission, No. NDRC2013.

5)    Preparation  and relaxing behavior of tungsten bronze type ceramics, Program for New Century  Excellent Talents in University of Fujian Province, XSJRC2007-16.

6)     Dielectric response and low loss of CCTO-based ceramics Fuzhou University Science  Foundation, No. 2010-XQ-01.

7)     LTCC of microwave  dielectric ceramics, Special Foundation for emerging sectors of  strategic importance  in FujianProvince, No. CL2013-8.

8)    High-voltage porcelain with saving energy and  environmental  free, Project of Enterprise  No.12CX-9.

Publications

(1)     J.Q. Wang, X. Huang, X.H. Zheng, D.P. Tang, Structure and  electric properties of CaCu₃Ti₄O₁₂ ceramics  prepared by rapid sintering, J. Mater. Sci.-Mater.  El. 27(2)  (2016),1345-1349.

(2)     X. Huang, X.M. Li,  D.P. Tang, X.H. Zheng, Improved  sintering characteristics and microwave dielectric properties of CaLa₄Ti₄O₁₅  ceramics with BiVO₄ addition, J. Mater. Sci.-Mater. El. 26(4) (2015),2033-2038.

(3)      X.H.  Zheng, P.J. Chen, N. Ma, Z.H. Ma, D.P. Tang, Synthesis and dielectric  properties of BiFeO₃ derived from molten salt method,  J. Mater. Sci.-Mater. El. 23(5) (2012), 990-994.

(4)      X.H.  Zheng, Z.H. Ma,P.J. Chen,  D.P.  Tang, N. Ma, Decomposition behavior and dielectric properties of Ti-doped  BiFeO₃ ceramics derived from molten salt method，J. Mater. Sci.-Mater. El. 23(8) (2012), 1533-1537.

(5)      X.H. ZhengFrequency dependence of dielectric properties of CaO-SrO-Li₂O-Ln₂O₃-TiO₂  ceramics, J. Mater. Sci.-Mater. El., 22(2011)  781-784.

(6)     X.H.  Zheng, C. Zhang, B.L. Liang,  D.P. Tang, X. Huang, X.L. Liu, An effective way to tune the microstructure  and dielectric properties of CaCu₃Ti₄O₁₂ ceramics, J. Alloys Compd., 505（2010）L10-L14.

(7)      Xing-Hua Zheng, Bing-Liang Liang, De-Ping Tang and  Xiang-Qi Li,Crystalstructure and microwave dielectric properties of Ba₄SNd_9.33Ti₁₈O₅₄  ceramics with Ca_0.61Nd_0.26TiO₃ addition, J.  Ceram. Soc. Jpn., 117(2009-11) 1254-1257.

(8)     Bing-Liang Liang, Xing-Hua Zheng, De-Ping Tang, New  high-e and high-Q  microwave dielectric ceramics: (1–x)Ca_0.61Nd_0.26TiO₃-xNd(Zn_0.5Ti_0.5)O3,  J. Alloys Compd., 488（2009）409-413.

(9)      W.Q. Ni, X.H. Zheng, J.C. Yu，Sintering effects on structure  and dielectric properties of dielectrics CaCu₃Ti₄O₁₂,  J. Mater. Sci. , 42 (2007) 1037-1041.

(10) X.H. Zheng, X.M.Chen & T. Wang, “Aging Effects on  Dielectric Properties of Barium Neodymium Titanium Tantalate Ceramics”, J. Mater. Sci.-Mater. El.., 17 (2006-7) 543-547.

(11) X.H. Zheng,  X.H. Zhou,Crystal Structure and Dielectric  Properties of La³⁺ substituted Ba₅LaTi₃Ta₇O₃₀  Ceramics, J. Mater.  Sci.-Mater. El., 17 (2006-12) 987-991.  

(12) X.H. Zheng, X.M.Chen and T. Wang, “Structures and Dielectric  Properties of La/Sn Co-substituted Ba₄Nd₂Ti₄Ta₆O₃₀  Ceramics”, J. Mater. Sci.-Mater. El., 16 (2005-9) 623-627.

(13) X.H. Zheng, X.M.  Chen and Y.W. Zeng, “Effect of La/Sn  Co-substitution for Ba/Ta on Crystal Structure and Dielectric Properties of  Ba₅NdTi₃Ta₇O₃₀ Ceramcis”, J. Mater. Sci.-Mater. El.,15 (2004-11) 733-737.

(14) X.H. Zheng and X.M. Chen, “Temperature-Stable High-  Dielectric Ceramics Based on (1-x)Ba₅NdTi₃Ta₇O₃₀/xBi₄Ti₃O₁₂”, J. Electroceram., 10-1 (2003-3) 31-38.

(15) X.H. Zheng and X.M. Chen,  “Crystal Structure and Dielectric Properties of Ferroelectric Ceramics in the  BaO-Sm₂O₃-TiO₂-Nb₂O₅  System”,Solid State Commun., 125 (2003-2) 449-454.

(16) X.H.  Zheng and X.M. Chen,  “Co-modification of Ba₅NdTi₃Ta₇O₃₀  Dielectric Ceramics by Substitution and Introducing Secondary Phase”, J. Electroceram., 8-3 (2002-9) 195-202.

(17) X.H.  Zheng and X.M. Chen,  “Dielectric Ceramics with Tungsten Bronze Structure in BaO-Nd₂O₃-TiO₂-Nb₂O₅  System”, J. Mater. Res., 17 (2002-7)1664-1670.

(18) X.H.  Zheng and X.M. Chen,  “Effects of Sr-Substitution on Dielectric Characteristics of Ba₄Nd₂Ti₄Ta₆O₃₀  Ceramics”, Jpn. J. Appl. Phys., 40(2001-6A) 4114-4117.  

(19) X.M. Chen, X.H. Zheng and J. Wang, “Structural and Dielectric  Characterization of Ba₄Nd₂Ti_4+xTa_6-xO_30-x  Nonstoichiometric Ceramics”, J. Mater. Res., 16 (2001-10) 2859-2863.

(20) X.M. Chen, Y.H. Sun & X.H. Zheng,  “High-eand Low Loss Dielectric Ceramics in  BaO-La₂O₃-TiO₂-Ta₂O₅  System”, J. Eur. Ceram. Soc, 23-10 (2003-9) 1571-1575.