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磁电薄膜与微型器件研究室

团队名称

磁电薄膜与微型器件研究室

团队介绍

1. 研究方向


    研究内容1:信息功能器件与LTCC集成技术    

低温烧结铁氧体、介陶瓷材料;LTCC片式器件与SIP技术;LTCC无源集成天线、微波旋磁器件;微波烧结及微波辅助低温共烧陶瓷(LTCF)工艺研究。

 

 

 

研究内容2: 功率型微波毫米波集成器件技术  

微波单晶薄膜及器件研究(环行器/隔离器、滤波器、延迟线等),磁光薄膜及其应用器件研究(磁光波导开关),宽带高增益微波天线研究。

 

   

 

研究内容3: 后摩尔时代--自旋电子器件与集成微芯片  

自旋存储芯片(2007年诺贝尔物理学奖巨磁电阻效应、磁性随机存储器、超高密度信息存储器);

自旋电子微波-光波器件(纳米微波源、微波探测器、电磁波波导、磁光器件);

自旋电子传感芯片(物联网磁场探测、智能电磁开关、角度/速度/位移传感芯片等);

自旋电子效应与器件(自旋逻辑器件、后CMOS器件、低功耗量子芯片)。

 

 

研究内容4: 太赫兹功能器件与通信系统

太赫兹光谱技术与微纳器件(太赫兹纳米结构、人工电磁媒质);太赫兹无线通信技术(太赫兹波调控技术、通信器件与组件);太赫兹探测成像技术(物质识别,安检,医疗诊断应用)。

 

 

研究内容5: 片上集成磁电子器件与探测技术  

磁电+自旋双态存储,磁电+MEMS微磁器件,自组装纳米双相磁电薄膜+磁性微波器件。

 

 

 

2. 代表性成果


(1)具有代表性的重要研究成果或进展

课题组长期聚焦磁电信息薄膜及集成微芯片技术,依托于科技部“电子薄膜与集成器件”国家重点实验室平台和“通信晶体材料”国际科技合作基地,在电子薄膜与集成器件研究领域处于国内领先/世界一流水平,强有力支撑了电子科学与技术学科全国排名第一。承担了国家973、863、重点研发计划、自然基金创新群体项目、重大项目、重点项目,国防重大工程项目等各类科研项目。近年来发表高水平SCI学术论文300余篇, 包括Energy & Environmental Science,Nature Communications,Nano Letter,Nano Energy, Advanced Electronic Materials 等。申请国家发明专利超过100余项,获得国家科技进步二等奖2项,国家科技发明二等奖1项,2015年何梁何利科技进步奖,2017年国家创新争优团队奖牌奖(第一,全国10个团队),省部级一等奖5项、二等奖5项等。


(2)代表性的高水平论文

[1] Yulong liao, Jin Zhang, Weiguo Liu,Huaiwu Zhang*, Enhanging the efficiency of CdS
quantum dot-sensitized solar cells via electrolyte engineering, Nano Energy, v11,88-95, 2015
[2] Fan, Xin; Wu, Jun; Chen, Yunpeng; Jerry, Matthew J.; Xiao, John Q., Observation of the
nonlocal spin-orbital effective field, Nature Communications, v 4, 1799, 2013
[3] Wang, Q; Zhang, HW; Ma, GK; Liao, YL; Tang, XL; Zhong, ZY, Spectrum Gaps of Spin
Waves Generated by Interference in a Uniform Nanostripe Waveguide, Scientific Reports, v4, 5917, 2014
[4] Jin, LC; Zhang, DN; Zhang, HW; Tang, XL; Bai, FM; Zhong, ZY; Fan, X; Xiao, JQ, Spin
valve effect of the interfacial spin accumulation in yttrium iron garnet/platinum bilayers,
Applied Physics Letters, v105, 132411, 2014
[5] Wang, Q; Zhang, HW; Tang, XL; Fangohr, H; Bei, FM; Zhong, ZY, Dynamic control of spin wave spectra using spin-polarized currents, Applied Physics Letters, 105, 112405, 2014
[6] Mao, Q; Wen, QY; Tian, W; Wen, TL; Chen, Z; Yang, QH; Zhang, HW, High-speed and
broadband terahertz wave modulators based on large-area graphene field-effect transistors, Optics Letters, v 39, 5649, 2014
[7] Zheng, ZL; Zhang, HW; Yang, QH; Jia, LJ, Enhanced High-Frequency Properties of NiZn
Ferrite Ceramic with Co(2)Z-Hexaferrite Addition, JOURNAL OF THE AMERICAN CERAMIC SOCIETY, v 97, 2016, 2014
[8] Lai, Wei En; Zhang, Huai Wu; Zhu, Yao Hua; Wen, Qi Ye; Du, Wei Wei; Tang, Xiao Li,
Bilayer metallic nanofilms as broadband antireflection coatings in terahertz optical systems, OPTICS EXPRESS, v 22, 2174, 2014
[9] Liao, Yulong; Zhang, Huaiwu; Zhong, Zhiyong; Jia, Lijun; Bai, Feiming; Li, Jie, Enhanced
Visible-Photocatalytic Activity of Anodic TiO2 Nanotubes Film via Decoration with CuInSe2 Nanocrystals, ACS Applied Materials & Interfaces, v 5, 11022, 2013
[10] Liao, Yulong; Zhang, Huaiwu; Bai, Feiming; Zhong, Zhiyong; Wen, Qiye, Activating the
Single-Crystal TiO2 Nanoparticle Film with Exposed {001} Facets, ACS Applied Materials
& Interfaces, 5 : 6463-6466, 2013
[11] Yao, Guoguang; Liu, Peng, Zhang, Huaiwu, Low-Temperature Sintering and Microwave Dielectric Properties of (Mg0.95Zn0.05)(2)(Ti0.8Sn0.2)O-4-(Ca0.8Sr0.2)TiO3 Composite Ceramics, Journal Of The American Ceramic Society, v 96, 3114, 2013
[12] Yao, Guo-Guang; Liu, Peng; Zhang, Huai-Wu, Novel Series of Low-Firing Microwave
Dielectric Ceramics: Ca5A4(VO4)6 (A2+=Mg, Zn), Journal of The American Ceramic Society, v 96, 1691, 2013
[13] Jian Shen, Xin Fan, Huaiwu Zhang, et al., Damping modulated Terahertz emission of
ferromagnetic films excited by ultrafast laser pulses, Applied Physics Letters, v101, 072401, 2012
[14] Ji, Y. D.; Pan, T. S.; Liang, W. Z.; Zhang, Y.; Zeng, H. Z.; Wen, Q. Y.; Zhang, H. W.; Lin,Y., Epitaxial growth and metal-insulator transition of vanadium oxide thin films with controllable phases, Applied Physics Letters, v 101, 071902, 2012
[15] Bai, Feiming; Yu, Guo; Wang, Yicheng; Jin, Lichuan; Zeng, Huizhong; Tang, Xiaoli; Zhong, Zhiyong; Zhang, Huaiwu, Strong exchange bias with the (110)-oriented BiFeO3 films, Applied Physics Letters, v 101, 092401, 2012
[16] Shen, J; Liu, SY; Zhang, HW; Robust and Tunable One-Way Magnetic Surface Plasmon
Waveguide: An Experimental Demonstration, PLASMONICS, 7 : 287-291 ,2012
[17] Bi, Chong; Fan, Xin; Kou, Xiaoming; Wu, Jun; Xiao, John Q., Yang, Qinghui; Zhang,
Huaiwu, Electrical detection of nonlinear ferromagnetic resonance in single elliptical
permalloy thin film using a magnetic tunnel junction, Applied Physics Letters, v 99, 232506, 2011
[18] Wen QY, Zhang HW, Yang QH, et al., Terahertz metamaterials with VO2 cut-wires for
thermal tenability, Applied Physics Letters, v 97, 021111, 2010
[19] Tian, Dongbin; Zhang, Huaiwu; Wen, Qiye; Wang, Zhiguo; Li, Sheng; Chen, Zhongjun; Guo, Xuejiao. Dual cylindrical metallic grating-cladding polymer hollow waveguide for terahertz transmission with low loss, Applied Physics Letters, v 97, 133502 , 2010
[20] Hai-Feng Lü, Liang-Chen Zhu, Xiao-Tao Zu, and Huai-Wu Zhang, Thermospin effects of a quasi-one-dimensional system in the presence of spin-orbit interaction, Applied Physics Letters,v 96, 123111, 2010
[21] Tang XL, Zhang HW, Su H, et al., Spin-transfer effect and independence of coercivity and exchange bias in a layered ferromagnet/antiferromagnet system, Physical Review B, v 81, 052401, 2010
[22] Wen QY, Zhang HW, Xie YS, et al., Dual band terahertz metamaterial absorber: Design, fabrication, and characterization, Applied Physics Letters, v 95, 241111, 2009
[23] Bai FM, Zhang HW, Li JF, et al., Magnetic force microscopy investigation of the static magnetic domain structure and domain rotation in Fe-x at.%Ga alloys, Applied Physics Letters, v 95, 152511, 2009
[24] X. Fan, R. Cao, T. Moriyama, W. Wang, H. W. Zhang, and John Q. Xiao, Magnetic tunnel junction based microwave detector, Applied Physics Letters, v 95, 122501, 2009
[25] Zhou JP; Guo YY; Xi ZZ; Liu P; Lin SY; Liu G; Zhang HW, Giant electric-field-induced magnetization in a magnetoelectric composite at high frequency, Applied Physics Letters, v 93, 152501, 2008
[26] Wang WG; Ni C; Rumaiz A; Wang Y; Fan X; Moriyama T; Cao R; Wen QY; Zhang HW; Xiao JQ, Real-time evolution of tunneling magnetoresistance during annealing in CoFeB/MgO/CoFeB magnetic tunnel junctions, Applied Physics Letters, v 92, 152501, 2008
[27] Wang WG; Han KJ; Yee KJ; Ni C; Wen Q; Zhang HW; Zhang Y; Shah L; Xiao JQ, Properties of (Zn,Cr)Te semiconductor deposited at room temperature by magnetron sputtering, Applied Physics Letters, v 92, 102507, 2008
[28] Tang XL; Zhang HW; Su H; Zhong ZY; Jing YL, Changing and reversing the exchange bias in a current-in-plane spin valve by means of an electric current, Applied Physics Letters, v 91, 122504, 2007
[29] Moriyama T; Cao R; Xiao JQ; Lu J; Wang XR; Wen Q; Zhang HW, Microwave-assisted
magnetization switching of Ni80Fe20 in magnetic tunnel junctions, Applied Physics Letters, v 90, 152503, 2007
[30] Zhou, TC; Zhang, HW; Jia, LJ; Li, J Liao, YL; Jin, LC; Su, H, Grain growth, densification,and gyromagnetic properties of LiZnTi ferrites with H3BO3-Bi2O3-SiO2-ZnO glass addition, Journal of Applied Physics, v 115, 17A511, 2014
[31] Wang, YC; Zhang, HW; Wang, L; Bai, FM, Compositional dependence of magnetic and high frequency properties of nanogranular FeCo-TiO2 films, Journal of Applied Physics, v115, 17A306, 2014
[32] Liao, YL; Zhang, HW; Li, J; Yu, GL; Zhong, ZY; Bai, FM Jia, LJ; Zhang, SH; Zhong, P,Ferromagnetism at room temperature in Cr-doped anodic titanium dioxide nanotubes, Journal of Applied Physics, v 115, 17C304, 2014
[33] Jin, Lichuan; Zhang, Huaiwu; Yang, Qinghui; Tang, Xiaoli; Zhong, Zhiyong, Tuning of the spin pumping in yttrium iron garnet/Au bilayer system by fast thermal treatment, Journal of Applied Physics, v 115, 17C511, 2014
[34] Hao, Guijie; Tang, Xiaoli; Zhang, Huaiwu, Magnetic and high frequency properties of nanogranular CoFe-yttrium-doped zirconia films, Journal of Applied Physics, v 115, 17A337,2014
[35] Zhang, SN; Jia, LJ; Zhang, HW; Li, J; Zhou, TC; Liu, BY, Composition, microstructures,and magnetic properties of Bi-modified NiCuZn-ferrite for low temperature Co-fired ceramic application, Journal of Applied Physics, v 115, 17A524, 2014
[36] Yang, QH; Zhang, HW; Liu, Y; Wen, QY, Magneto-optical properties of nanometer crystal giant magneto-optical BiAlDyIG thin film materials post-treated by rapid recurrent thermal annealing method, Journal of Applied Physics, v 115, 17B737, 2014
[37] Chen, Kang; Jia, Lijun; Yu, Xianghai; Zhang, Huaiwu, A low loss NiZnCo ferrite, prepared using a hydrothermal method, for antenna applications, Journal of Applied Physics, v115, 17A520, 2014
[38] Wang, Qi; Zhang, Huaiwu; Ma, Guokun; Liao, Yulong; Zhong, Zhiyong, Position dependentspin wave spectrum in nanostrip magnonic waveguides, Journal of Applied Physics, v 115, 133906, 2014
[39] Wang, Qi; Zhang, Huaiwu; Ma, Guokun; Tang, Xiaoli; Liao, Yulong; Zhong, Zhiyong,
Magnonic band gaps in two-dimension magnonic crystals with diffuse interfaces, Journal Of Applied Physics, v115, 113904, 2014
[40] Tang, Xiao-Li; Du Weiwei; Su, Hua; Zhang, Huai-Wu; Zhong, Zhi-Yong; Jing, Yu-Lan,
Interaction in ferromagnetic thin film across an antiferromagnetic layer, Journal Of Appled Physics, v 114, 093910, 2013
[41] Wen, Dandan; Bai, Feiming; Wang, Yicheng; Zhong, Zhiyong; Zhang, Huaiwu, Tailoring of the soft magnetic property and uniaxial anisotropy of magnetostrictive films by interlayer, Journal Of Applied Physics, v 113, 17A309, 2013
[42] Wang, Yicheng; Zhang, Huaiwu; Wen, Dandan; Zhong, Zhiyong; Bai, Feiming, Magnetic and high frequency properties of nanogranular CoFe-TiO2 films, Journal Of Applied Physics, v 113, 17A316, 2013
[43] Su, Hua; Tang, Xiaoli; Zhang, Huaiwu; Jing, Yulan; Bai, Feiming; Zhong, Zhiyong,
Low-loss NiCuZn ferrite with matching permeability and permittivity by two-step sintering process, Journal Of Applied Physics, v 113, 17B301, 2013
[44] Li, Yuanxun; Liu, Yingli; Li, Jie; Yang, Kai; Zhang, Huaiwu, Magnetic and self-biased properties of highly oriented M-type barium ferrite films on Pt-coated Si substrate by magnetron sputtering, JOURNAL OF APPLIED PHYSICS, 113 : 17B306, 2013
[45] Jin, Lichuan; Zhang, Huaiwu; Tang, Xiaoli; Zhong, Zhiyong, Tuning the spin pumping
characteristics in Ni81Fe19/CuNx bilayer films, Journal Of Applied Physics, v 113, 17C503,2013
[46] Hao, Guijie; Zhang, Huaiwu; Tang, Xiaoli, Improving soft magnetic properties of nanometer CoNbZr films in gigahertz frequency range by electrical pulse annealing, Journal Of Applied Physics, v 113, 17A341, 2013
[47] Wang, Qi; Zhong, Zhiyong; Jin, Lichuan; Tang, Xiaoli; Bai, Feimin; Zhang, Huaiwu, Large magnon band gaps created by introducing additional lattice scatterers, Journal Of Applied Physics, v 113, 153905, 2013
[48] Jin, Lichuan; Zhang, Huaiwu; Tang, Xiaoli; Bai, Feiming; Zhong, Zhiyong, Effects of ruthenium seed layer on the microstructure and spin dynamics of thin permalloy films,
Journal of Applied Physics, v 113, 053902, 2013
[49] Zongliang Zheng, Huaiwu Zhang, John Q. Xiao, Qinghui Yang, Liguo Wang, and Hua Su, High frequency magnetic properties and microstructure of NiZn/Co2Z composite ferrite material, Journal of Applied Physics, v 111, 07A336, 2012
[50] Daming Chen, Yingli Liu, Yuanxun Li, Kai Yang, and Huaiwu Zhang, Evolution of
crystallographic texture and magnetic properties of polycrystalline barium ferrite thick films with Bi2O3 additive, Journal of Applied Physics, v 111, 07A511, 2012
[51] Qi Xia, Hua Su, Guoce Shen, Taisong Pan, Tianshui Zhang, Huaiwu Zhang, and Xiaoli Tang, Investigation of low loss Z-type hexaferrites for antenna applications, Journal of Applied Physics, v 111, 063921, 2012
[52] Qi Xia, Hua Su, Guoce Shen, Taisong Pan, Tianshui Zhang, Huaiwu Zhang, and Xiaoli Tang, Miniaturized T-DMB antenna based on low loss magneto-dielectric materials for mobile handset applications, Journal of Applied Physics, v 112, 043915, 2012
[53] Wen Qi-Ye, Zhang Huai-Wu, Yang Qing-Hui, Chen Zhi; Long Yang, Jing Yu-Lan, A
tunable hybrid metamaterial absorber based on vanadium oxide films, Journal of Physics D: Applied Physics, v 45, 235106, 2012
[54] Tang Xiaoli, Su Hua, Zhang Huai-Wu, Jing Yu-Lan, Zhong Zhi-Yong, Tuning the direction of exchange bias in ferromagnetic/antiferromagnetic bilayer by angular-dependent spin-polarized current, Journal of Applied Physics, v 112, 073916, 2012
[55] Jia Lijun, Zhang Huaiwu, Wu Xiaohu, Li Tao, Su Hua, Liu Baoyuan, Microstructures and magnetic properties of Bi-substituted NiCuZn ferrite, Journal of Applied Physics, v 111, 07A326, 2012
[56] Bai Feiming, Yu Guo, Wang Yicheng, Jin Lichuan, Zeng, Huizhong, Tang Xiaoli, Zhong
Zhiyong, Zhang Huaiwu, Strong exchange bias with the (110)-oriented BiFeO3 films,
Applied Physics Letters, v 101, 092401, 2012
[57] Haifeng Lv, S. S. Ke, Huaiwu Zhang, Spin-polarized transport through a two-level quantum dot driven by ac fields, Journal of Applied Physics, v 109, 054305, 2011
[58] S. S. Ke, Haifeng Lv, Huiwu Zhang, Super-Poissonian shot noise as a probe of spin bias in mesoscopic systems, Journal of Physics.: Condens. Matter, v 23, 215305, 2011
[59] Qinghui Yang, Huiwu Zhang, Qiye Wen, Yingli Liu, Electromagnetic properties of
microwave sintered ferromagnetic-ferroelectric composites for application in low
temperature co-fired ceramic devices, Journal of Applied Physics, v 109, 07D733, 2011
[60] Lijun Jia, Huiwu Zhang, Shuiming Yin, Feiming Bai, Baoyuan Liu,Qiye Wen, Synthesis and magnetic properties of Co–Ti–Bi codoped M-type barium ferrite, Journal of Applied Physics, v 109, 07E317, 2011
[61] Hua Su, Xiaoli Tang, Huiwu Zhang, Zhiyong Zhong, Sintering dense NiZn ferrite by
two-step sintering process, Journal of Applied Physics, v 109, 07A501, 2011
[62] Yingli Liu, Yuanxun Li, Huiwu Zhang, Structural and magnetic properties of NiZn–ferrite thin films prepared by radio frequency magnetron sputtering, Journal of Applied Physics, v 109, 07A511, 2011
[63] Guangduo Lu, Huiwu Zhang, John Q. Xiao, Feiming Bai, Xiaoli Tang ,Yuanxun Li, Influence of Sputtering Power on the High Frequency Properties of Nanogranular FeCoHfO Thin Films, Journal of Applied Physics, v 109, 07A327, 2011
[64] Guangduo Lu, Huiwu Zhang, John Q. Xiao, Xiaoli Tang, Yunsong Xie, Zhiyong Zhong, Soft Magnetic Properties of (Ni80Fe20)1-x (Ni0.5Zn0.5Fe2O4)x Films for High Frequency
Applications, Journal of Applied Physics, v 109, 07A308, 2011
[65] Chunhong Mu, Yingli Liu, Yuanqiang Song, Liguo Wang, Huiwu Zhang, Improvement of high-frequency characteristics of Z-type hexaferrite by dysprosium doping, Journal of
Applied Physics, v 109, 123925, 2011
[66] Lichuan Jin, Huiwu Zhang, Xiaoli Tang, Zhiyong Zhong, Design of a LC-tuned magnetically suspended rotating gyroscope, Journal of Applied Physics, v 109, 07E525, 2011
[67] Haifeng Lv, S. S. Ke, Huaiwu Zhang, Spin-polarized transport through a two-level quantum dot driven by ac fields, Journal of Applied Physics, v 109, 054305, 2011
[68] S. S. Ke, Haifeng Lv, Huiwu Zhang, Super-Poissonian shot noise as a probe of spin bias in mesoscopic systems, Journal of Physics: Condens. Matter, v 23, 215305, 2011
[69] Zhao GP, Deng Y, Zhang HW, Thickness dependent magnetic reversal process and
hysteresis loops in exchange-coupled hard-soft trilayers, Journal of Applied Physics, v 108, 093928, 2010
[70] Yang QH, Zhang HW, Wen QY, Effects of off-stoichiometry and density on the magnetic and magneto-optical properties of yttrium iron garnet films by magnetron sputtering method, Journal of Applied Physics, v 108, 073901, 2010
[71] Liu YL, Li YX, Zhang HW, Study on magnetic properties of low temperature sintering
M-Barium hexaferrites, Journal of Applied Physics, v 107, 09A507, 2010
[72] Wen QY, Zhang HW, Yang QH, Effects of Fe doping and the dielectric constant on the room temperature ferromagnetism of polycrystalline CeO2 oxides, Journal of Applied Physics, v 107, 09C307, 2010
[73] Ling WW, Zhang HW, Li YX, Effect of B2O3-Bi2O3-SiO2-ZnO glass on the dielectric and magnetic properties of ferroelectric/ferromagnetic composite for low temperature cofired ceramic technology, Journal of Applied Physics, v 107, 09D911, 2010
[74] Jia LJ, Zhang HW, Li T, Dielectric and magnetic properties of 0.4PZT+0.6NiCuZn-ferrite composites modified with P2O5-Co2O3, Journal of Applied Physics, v 107, 09E309, 2010
[75] Liu, Cheng; Liu, Peng; Zhou, Jian-ping; He, Ying; Su, Li-na; Cao, Lei; Zhang, Huai-wu; Colossal dielectric constant and relaxation behaviors in Pr:SrTiO3 ceramics, Journal of Applied Physics, v 107, 094108, 2010
[76] Zhao GP, Bo N, Zhang HW, Demagnetization process and hysteresis loops in perpendicularly oriented hard/soft trilayers, Journal of Applied Physics, v 107, 083907, 2010
[77] Lu, Hai-Feng; Zhang, Jun-Rui; Wu, Tao; Zu, Xiao-Tao; Zhang, Huai-Wu; ,Current noise correlations in double quantum dots asymmetrically coupled to external leads, Journal of Applied Physics, v 107, 034314, 2010
[78] Tang XL, Zhang HW, Su H, Spin torque-driven switching of exchange bias in a spin valve, Journal of Applied Physics, v 106, 073906, 2009
[79] Yang QH, Zhang HW, Wen QY, Tuning magnetic properties of yttrium iron garnet film with oxygen partial pressure in sputtering and annealing process, Journal of Applied Physics, v 105, 07A501, 2009
[80] Yang QH, Zhang HW, Wen QY, Effect of CeO2 buffer layer on the microstructure and
magnetic properties of yttrium iron garnet film on Si substrate, Journal of Applied Physics, v105, 07A507, 2009
[81] Tang XL, Zhang HW, Su H, Changing the exchange bias of spin valves by means of current pulses: Role of the Joule heating, Journal of Applied Physics, v 105, 073914, 2009
[82] Liu YL, Li YX, Zhang HW, Study on microwave properties of low temperature fired
NiZnCu gyromagnetic ferrite, Journal of Applied Physics, v 105, 07A523, 2009
[83] Li YX, Liu YL, Zhang HW, The sintering properties and interfacial investigation of barium ferrite and ceramic cofiring system for the application of LTCC technology, Journal of Applied Physics, v 105, 07A745, 2009
[84] Shah, Lubna R.; Wang, Weigang; Zhu, Hao; Ali, Bakhtyar; Song, Y. Q.; Zhang, H. W.; Shah, S. I.; Xiao, J. Q.;Role of dopant, defect, and host oxide in the observed room temperature ferromagnetism: Co-ZnO versus Co-CeO2, Journal of Applied Physics, v 105,07C515, 2009
[85] Tang XL, Zhang HW, Su H, Effect of polarized current on the exchange bias in a current-in-plane spin valve, Journal of Applied Physics, v 105, 07D106, 2009
[86] Ling WW, Zhang HW, Li YX, Electromagnetic properties of ferroelectric/ferromagnetic
composite materials base on low temperature cofired ceramic technology, Journal of Applied Physics, v 105, 07D911, 2009
[87] Jian-Ping Zhou, Wei Zhao, Yang-Yang Guo, Peng Liu, and Huai-Wu Zhang, Magnetoelectric coupling in small Pb(Zr,Ti)O3/terfenol-D laminate composites, Journal of Applied Physics, v 105, 063913, 2009
[88] Peng L, Zhang HW, Yang QH, Correlation between sputtering parameters and composition of SmCo-based films for microelectromechanical system applications, Journal of Applied Physics, v 105, 063915, 2009
[89] Su, H; Zhang, HW; Tang, XL; Jing, YL, Influence of microstructure on permeability
dispersion and power loss of NiZn ferrite, Journal of Applied Physics, v 103, 093903, 2008
[90] Moriyama, T; Cao, R; Xiao, JQ; Lu, J; Wang, XR; Wen, Q; Zhang, HW, Magnetization
reversal by microwave in magnetic tunnel junctions, Journal of Applied Physics, v 103,
07A906, 2008
[91] Wen, QY; Zhang, HW; Song, YQ; Yang, QH; Zhu, H; Wang, WG; Xiao, JQ, Room-temperature ferromagnetism in co doped La2O3, Journal of Applied Physics, v 103,
07D120, 2008


(3)所获的重要奖项

2015年  何梁何利科技进步奖

2014年  国家科学技术进步二等奖

2008年  国家技术发明二等奖

2005年  国家科学技术进步二等奖

2015年  四川省科技进步一等奖

2012年  四川省科技进步特等奖-杰出贡献奖

2013年  教育部自然科学一等奖

2014年  教育部自然科学二等奖

2004年  四川省科技进步一等奖

2005年  国防科技进步二等奖

2009年  教育部自然科学二等奖





 

团队负责人

团队成员

张怀武

邮箱:hwzhang@uestc.edu.cn
电话:028-83207656
系别:微电子与固体电子系
职称:教授

金立川

邮箱:lichuanj@uestc.edu.cn
电话:028-61830769
系别:微电子与固体电子系
职称:副教授(副研究员等)

李颉

邮箱:lijie@uestc.edu.cn
电话:028-83203793
系别:微电子与固体电子系
职称:副教授(副研究员等)

钟智勇

邮箱:zzy@uestc.edu.cn
电话:028-61831089
系别:微电子与固体电子系
职称:教授

白飞明

邮箱:fmbai@uestc.edu.cn
电话:028-83201440
系别:微电子与固体电子系
职称:教授

刘成

邮箱:c_liu@uestc.edu.cn
电话:028-83203793
系别:微电子与固体电子系
职称:副教授(副研究员等)

刘颖力

邮箱:lyl@uestc.edu.cn
电话:028-83201707
系别:微电子与固体电子系
职称:教授

贾利军

邮箱:jlj@uestc.edu.cn
电话:028-83202921
系别:微电子与固体电子系
职称:教授

廖宇龙

邮箱:yulong.liao@uestc.edu.cn
电话:028-83201440
系别:微电子与固体电子系
职称:研究员

向全军

邮箱:xiangqj@uestc.edu.cn
电话:028-83207063
系别:微电子与固体电子系
职称:教授

李元勋

邮箱:liyuanxun@uestc.edu.cn
电话:13709092550
系别:微电子与固体电子系
职称:教授

石玉

邮箱:shiyu_aaa@163.com
电话:028-83203236
系别:微电子与固体电子系
职称:教授

苏桦

邮箱:uestcsh@uestc.edu.cn
电话:028-83203793
系别:微电子与固体电子系
职称:教授

唐晓莉

邮箱:tangtang1227@uestc.edu.cn
电话:028-61830597
系别:微电子与固体电子系
职称:教授

杨青慧

邮箱:yangqinghui@uestc.edu.cn
电话:028-8303793
系别:微电子与固体电子系
职称:教授

尉旭波

邮箱:
电话:
系别:微电子与固体电子系
职称:副教授(副研究员等)

文天龙

邮箱:halong@uestc.edu.cn
电话:028-83201440
系别:微电子与固体电子系
职称:副教授(副研究员等)

文岐业

邮箱:qywen@163.com
电话:028-83203793
系别:微电子与固体电子系
职称:教授

钟慧

邮箱:huizhong@uestc.edu.cn
电话:
系别:微电子与固体电子系
职称:副教授