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陆旭兵
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曾敏
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张璋
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刘俊明(兼职)
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曾敏

博士、副教授、硕士研究生导师...

基本介绍
教育及工作经历:

 

教育经历:

1996-1999 景德镇陶瓷学院材料工程系,学士

2001-2004 景德镇陶瓷学院/南京大学联合培养,硕士

2007-2010 香港理工大学应用物理系,博士

工作经历:

1999-2001 广东省佛山市陶瓷色釉料陶瓷公司,研发员

2004-2006 景德镇陶瓷学院材料工程学院,讲师

2006-2007 香港理工大学应用物理系,助理研究员

2010-至今   华南师范大学先进材料研究所,副教授

 

主要研究领域:

铁电、铁磁及多铁性材料的制备、器件及物理研究

与铁电、铁磁相关的第一性原理计算。

固体氧化物燃料用粉体的制备研究。
   

研究项目:

1.  多铁性材料异质结和原型器件的设计、制备及性能调控研究:国家自然科学基金重点项目(51332007-合作,项目期限:201401-201812月,批准金额:总额300万元,华师90万元,责任:第二申请人,华南师范大学项目负责人。

2.  磁性纳米结构对多铁性场效应异质结电控磁性的增强研究 :国家自然科学基金面上项目51272078项目期限:201301-201612月,批准金额:78万元,责任:主要参与人

3.  NiMnGa铁磁形状记忆合金/压电材料复合薄膜的磁电耦合效应研究 国家自然科学基金青年科学基金项目51101063,项目期限:201201-201412月,批准金额:25万元,责任:主持人

4.  铁磁/铁电复合薄膜的磁电耦合效应及其机理研究:广东省自然科学基金-博士启动(S2011040003205),项目期限:201110-201310月,批准金额:3万元,责任:主持人

发表论文目录

 

[1]  [1] Q. Miao, M. Zeng, Z. Zhang, X. B. Lu, J. Y. Dai, X. S. Gao, J.-M. Liu, Self-assembled nanoscale capacitor cells based on ultrathin BiFeO3 films, Appl. Phys. Lett. 104, 182903 (2014).

 [2]   X. S. Gao, M. Zeng, and J.-M. Liu, Multiferroic nanodot structures and their applications in micro/nano devices, Phys. 43, 246 (2014).

 [3]   Y. B. Lin, Z. B. Yan, X. B. Lu, Z. X. Lu, M. Zeng, Y. Chen, X. S. Gao, J. G. Wan, J. Y. Dai, and J.-M. Liu, Temperature-dependent and polarizationtuned resistive switching inAu/BiFeO3/SrRuO3 junctions, Appl. Phys. Lett. 104, 143503(2014).

 [4] Y. Zhang, Y. Y. Shao, X. B. Lu, M. Zeng, Z. Zhang, X. S. Gao, X. J. Zhang, J.-M. Liu, and J. Y. Dai, Defect states and charge trapping characteristics of HfO2 films for high performance nonvolatile memory applications, Appl. Phys. Lett. 105, 172902 (2014).

 [5] X. G. Fang, S. X. Lin, M. H Qin, X. S. Gao, M, Zeng, and J.-M. Liu, Structure, magnetism and spin polarization in (Ni1−xCox)2MnGa alloys: Unusual composition dependences, Europhys Lett, 105, 47010 (2014).

 [6]  S. X. Lin, X. G. Fang, A. H. Zhang, X. B. Lu, J. W. Gao, X. S. Gao, M. Zeng, J.-M. Liu, Uniaxial strain-induced magnetic order transition from E-type to A-type in orthorhombic YMnO3 from first-principles, J. Appl. Phys. 116, 163705 (2014).

 [7]  M. Li, Y. Zhang, Y. Y. Shao, M. Zeng, Z. Zhang, X. S. Gao, X. B. Lu, J.-M. Liu, and H. Ishiwara, Bi2SiO5 Doping Concentration Effects on the Electrical Properties of SrBi2Ta2O9 FilmsJ. Electronic Mater. 43, 3625 (2014).

 [8]  R. P. Yang, S. X. Lin, X. G. Fang, M. H. Qin, X. S. Gao, M. Zeng, and J.-M. Liu, Electronic and magnetic properties of BiFeO3 with intrinsic defects: First-principles prediction, Chin. Phys. B 23, 067102 (2014).

 [9]  R. P. Yang, S. X. Lin, X. G. Fang, X. S. Gao, M. Zeng, J.-M. Liu, First-principles study on the magnetic properties in Mg doped BiFeO3 with and without oxygen vacancies, J. Appl. Phys. 114, 233912 (2013).

 [10]  L. Y. Zou, R. P. Yang, Y. B. Lin, M. H. Qin, X. S. Gao, M. Zeng, J.-M. Liu, Dielectric and magnetic properties of BiFe1-4x/3TixO3 ceramics with iron vacancies: Experiment and first-principles studies, J. Appl. Phys. 114, 034105 (2013).

 [11]  Y. J. Guan, Y. B. Lin, L. Y. Zou, Q. M, M. Zeng, Z. W. Liu, X. S. Gao, and J.-M. Liu, The effects of Co-Ti co-doping on the magnetic, electrical, and magnetodielectric behaviors of M-type barium hexaferrites, AIP Advance 3, 122115 (2013)

 [12]  X. M. Chen, Y. H. Zou, G. L. Yuan, M. Zeng, J.-M. Liu, J. Yin, and Z. G. Liu Temperature Gradient Introduced Ferroelectric Self-Poling in BiFeO3 Ceramics, J. Am. Ceram. Soc. 96, 3788 (2013)

 [13]  J. P. Chen, Z. Q. Wang, J. J. Gong, M. H. Qin, M. Zeng, X. S. Gao, and J.-M. Liu, Stripe-vortex transitions in ultrathin magnetic nanostructures, J. Appl. Phys. 113, 054312 (2013).

 [14]  H. Wu, Y. B. Lin, F. Zhang, J. J. Gong, Z. Yang, M. Zeng, M. H. Qin, Z. Zhang, Q. Ru, Z. W. Liu, X. S. Gao, J.-M. Liu, Significant enhancements of dielectric and magnetic properties in Bi(Fe1-xMgx)O3-x/2 induced by oxygen vacancies, J. Phys. D Appl. Phys. 46, 145001 (2013).

 [15]  M. Zeng, J. Liu, Y. B. Qin, H. X Yang, J. Q. Li, and J. Y Dai. Dielectric tunability and magnetoelectric coupling in LuFe2O4 epitaxial thin film deposited by pulsed-laser deposition, Thin Solid Films  520, 6446 (2012).

 [16]  L. H. Zhang,K. Pei,M. D. Yu,Y. L. Huang,H. B. Zhao, M. Zeng, Y. Wang, and J. W. Gao, Theoretical Investigations on Donor–Acceptor Conjugated Copolymers Based on Naphtho 1,2-c:5,6-c]bis[1,2,5] thiadiazole for Organic Solar Cell Applications, J. Phys. Chem. C 116, 26154 (2012).

 [17]  M. H. Qin, Y. M. Tao, M. Zeng, X. S. Gao, S. J. Wu, S. Dong, and J.-M. Liu,  Multiferroic Phase Competitions in Perovskite Manganite Thin Films, Appl. Phys. Lett. 100, 052410 (2012).

 [18]  M. H. Qin, Y. M. Tao, S. Dong, M.Zeng, S. J. Wu, H. B. Zhao, X. S. Gao, and J.-M. Liu, Multiferroic properties in orthorhombic perovskite manganites: Monte Carlo simulation. J. Appl. Phys. 111, 053907 (2012).

 [19]  M. Zeng, S. W. Or, HLW Chan, Giant resonance frequency tunable magnetoelectric effect in a device of PZT drum transducer, NdFeB and Fe-core solenoid, Appl. Phys. Lett. 96, 203502 (2010).

 [20]  M. Zeng, S. W. Or, HLW Chan, Effect of phase transformation on the converse magnetoelectric properties of heterostructure of Ni-Mn-Ga and PMN-PT single crystals, Appl. Phys. Lett. 96, 182503 (2010).

 [21]  M. Zeng, S. W. Or, HLW Chan, First-principles study on the electronic and optical properties of Na0.5Bi0.5TiO3 lead-free piezoelectric crystal, J. Appl. Phys. 107, 043513 (2010).

 [22]  M. Zeng, S. W. Or, HLW Chan, Large magnetoelectric effect from mechanically mediated magnetic field-induced strain effect in Ni-Mn-Ga single crystal and piezoelectric effect in PVDF polymer, J. Alloy Compd. 490, L5-L8 (2010).

 [23]  M. Zeng, S. W. Or, HLW Chan, Ultrahigh anisotropic damping in ferromagnetic shape memory Ni–Mn–Ga single crystal, J. Alloy Compd. 493, 565-568 (2010).

 [24]  M. Zeng, S. W. Or, HLW Chan, Anisotropy of the electrical transport properties in a Ni2MnGa single crystal: Experiment and Theory, J. Appl. Phys. 107, 083713 (2010).

 [25]  M. Zeng, S. W. Or, HLW Chan, DC- and ac-magnetic field-induced strain effects in ferromagnetic shape memory composites of Ni-Mn-Ga single crystal and polyurethane polymer, J. Appl. Phys. 107, 09A942 (2010).

 [26]  M. Zeng, S. W. Or, HLW Chan, Giant magnetoelectric effect in magnet–cymbal–solenoid current-to-voltage conversion device, J. Appl. Phys. 107, 074509 (2010).

 [27]  M. Zeng, S. W. Or, HLW Chan, Magnetic field induced strain and magnetoelectrics in Ni-Mn-Ga single crystal and piezoelectric PVDF polymer sandwich, IEEE T Ultrason. FERR 57, 2147 (2010).

 [28]  M. Zeng, S. W. Or, HLW Chan, Large twin-variants reorientation-induced magnetoresistance effect in a Ni-Mn-Ga single crystal, J. Appl. Phys. 108, 053716 (2010).

 [29]  J.-MLiu, F. Gao, G. L. Yuan, Y. Wang,M. Zeng, J. G. Wan , Ferroelectric and magnetoelectric behaviors of multiferroic BiFeO3 and piezoelectric-magnetostrictive composites, J. Electroceram. 21, 78 (2008).

 [30]  X. P. Jiang, M. Zeng, K. W. Kowk, HLW Chan, Dielectric and ferroelectric properties of Bi-doped BaTiO3 ceramics,Advances in Composite Materials and Structures (Key Engineering Materials), 334, 977 (2007).

 [31]  X. P. Jiang, L. Z. Li, M. Zeng, HLW Chan, Dielectric properties of Mn-doped (Na0.8K0.2)0.5Bi0.5TiO3 ceramics, Mater. Lett. 60, 1786 (2006).

 [32]  X. P. Jiang, W. P. Chen, Z. Peng, M. Zeng, HLW Chan, C. L. Choy, Q. R. Yin, Effects of electrolysis of water on the properties of soft lead zirconate titanate piezoelectric ceramics, Ceram. Int. 32, 583 (2006).

 [33]  X. P. Jiang, M. Zeng, HLW Chan, Relaxor behaviors and tunability in BaZr0.3Ti0.65O3 ceramics, Mat. Sci. Eng. A-Struct. 438, 198 (2006).

 [34]  H.Yu, M. Zeng, Y. Wang, J. G. Wan, J.-M. Liu, Magnetoelectric resonance-bandwidth broadening of terfenol-D/epoxyPb(Zr,Ti)O3 bilayers in parallel and series connections, Appl. Phys. Lett. 86, 032508 (2005).

 [35]  Y.Wang, H. Yu, M. Zeng, J. G. Wan, M. F. Zhang, J.-M. Liu, C. W. Nan, Numerical modeling of the magnetoelectric effect in magnetostrictive piezoelectric bilayers,
Appl. Phys. A-Mater. 81, 1197 (2005).

 [36]  J. G. Wan, X. W. Wang, Y. J. Wu, M. Zeng, Y. Wang, H. Jiang, W. Q. Zhou, G. H. Wang, J.-M. Liu, Magnetoelectric CoFe2O4-Pb(Zr,Ti)O3 composite thin films derived by a sol-gel process, Appl. Phys. Lett. 86, 122501 (2005).

 [37]  J. G. Wan, Z. Y. Li, Y. Wang, M. Zeng, G. H. Wang, J.-M. Liu, Strong flexural resonant magnetoelectric effect in Terfenol-D/epoxy-Pb(Zr,Ti)O3 bilayer, Appl. Phys. Lett. 86, 202504 (2005).

 [38]  K. F. Wang, Q, Xiao, H. Yu, M. Zeng, M. F. Zhang, J.-M. Liu, Magneto-transport and specific heat behavior of Cd-doped La0.5Ca0.5MnO3 J. Magn. Magn. Mater. 285, 130 (2005).

 [39]  X. P. Jiang, W. P. Chen, Z. Peng, M. Zeng, WLH Chan, Q. R. Yin, Water-induced degradation in lead zinc niobate-lead zirconate titanate soft piezoelectric ceramics, Chinese Phys. Lett. 22, 1239 (2005).

 [40]  S. Q. Ren, L. Q. Weng, S. H. Song, F. Li, J. G. Wan, M. Zeng, BaTiO3/CoFe2O4 particulate composites with large high frequency magnetoelectric response, J. Mater. Sci. 40, 4375 (2005).

 [41]  M. Zeng, J. G. Wan, Y. Wang, H. Yu, J.-M. Liu, X. P. Jiang, C. W. Nan, Resonance magnetoelectric effect in bulk composites of lead zirconate titanate and nickel ferrite, J. Appl. Phys. 95, 8069 (2004).

 [42]  Y. X. Liu, M. Zeng, Y. Wang, J. G. Wan, X. P. Jiang, J.-M. Liu, Numerical modeling of magnetoelectric effect in a novel composite structure, Ceram. Int. 30, 1999 (2004).

联系方式:zengmin@scnu.edu.cn

 

 

 


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