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南开大学电子信息与光学工程学院导师教师师资介绍简介-左旭

本站小编 Free考研考试/2020-09-19


左旭
性别 : 男 所属部门 : 电子信息工程系
职称 : 教授 学历 : 博士
行政职务 : 所学专业 : 微波与电磁场
办公电话 :
邮箱 : xzuo@nankai.edu.cn
研究方向 : (a) First principle calculation of magnetism and magnetic materials. (b) Microwave ferrites and devices.



个人简历Dr. Zuo received the Ph.D. degree in Electrical Engineering in 2003 from Northeastern University (Boston Massachusetts USA) and B.S. degree in 1996 from Tsinghua University (Peiking China). Before he was appointed Associate Professor of Electrical Engineering by Nankai University, he was Visiting Associate Research Scientist at Northeastern University. He maintains an active research since 1998, while involving multiple research projects on magnetism, magnetic materials and related microwave applications funded by NFS (National Science Fundation) and ONR (Office of Naval Research). He is currently working on functional materials (inluding high-Tc superconductor, ferrite and ferroelectrics), related microwave applicaitons and first principle study of the materials. He published 80 technical articles on peer-reviewed journals, including IEEE Transaction on Magnetics and Journal of Applied Physics, where he also served as an active referee. He is member of IEEE and IEEE magnetics society.
科研项目/成果/获奖/专利 强约束条件下集成微系统的基础科学技术问题(第一批)----2016-01-01到2020-12-31
强约束条件下集成微系统的基础科学技术问题(第二批)----2018-01-01到2018-12-31
基于材料微观结构和量子效应的功能材料集成设计方法----2013-01-01到2015-08-31
基于材料微观结构和量子效应的功能材料集成设计方法----2011-01-01到2012-12-31
d0铁磁性的第一原理计算研究----2010-01-01到2012-12-31
低维功能材料和器件的集成设计----2009-03-01到2010-08-31
第三代移动通讯用高温超导滤波器----2008-04-01到2011-03-31
人工尖晶体石铁氧体的自旋工程----2007-01-01到2009-12-01
半金属尖晶石的第一原理计算研究----2007-01-01到2009-12-01
铁氧体薄膜及其微波器件应用的研究----2005-01-01到2006-12-01
热氧化无定型二氧化硅中本征点缺陷的第一性原理计算----2015-12-01
半导体材料与环境相互作用的研究情况调研----2015-10-12

论文/专著/教材

[1] Li P, Song Y, Zuo X. Computational Study on Interfaces and Interface Defects of Amorphous Silica and Silicon. Phys Status Solidi-Rapid Res Lett 2019;13:**. doi:10.1002/pssr..
[2] Li P, Chen Z, Yao P, Zhang F, Wang J, Song Y, et al. First-principles study of defects in amorphous-SiO2/Si interfaces. Applied Surface Science 2019;483:231–40. doi:10.1016/j.apsusc.2019.03.216.
[3] Yue Y, Wang J, Zhang Y, Song Y, Zuo X. Interactions of atomic hydrogen with amorphous SiO2. Physica B 2018;533:5–11. doi:10.1016/j.physb.2017.12.056.
[4] Yue Y, Song Y, Zuo X. First-principles investigations of proton generation inα-quartz. Chin Phys B 2018;27:37102–037102. doi:10.1088/1674-1056/27/3/037102.
[5] Yue Y, Li P, Song Y, Zuo X. Dissociation characteristics of proton release in a-SiO2 by first-principles theory. J Non-Cryst Solids 2018;486:1–8. doi:10.1016/j.jnoncrysol.2018.01.046.
[6] Yue Y, Song Y, Zuo X. First principles study of oxygen vacancy defects in amorphous SiO2. AIP Adv 2017;7:015309. doi:10.1063/1.**.
[7] Qin Z, Qin G, Zuo X, Xiong Z, Hu M. Orbitally driven low thermal conductivity of monolayer gallium nitride (GaN) with planar honeycomb structure: a comparative study. Nanoscale 2017;9:4295–309. doi:10.1039/C7NR01271C.
[8] Qin Z, Qin G, Shao B, Zuo X. Unconventional magnetic anisotropy in one-dimensional Rashba system realized by adsorbing Gd atom on zigzag graphene nanoribbons. Nanoscale 2017;9:11657–66. doi:10.1039/C7NR03164E.
[9] Liu P, Qin Z-Z, Yue Y-L, Zuo X. Structural, electronic, and magnetic properties of vanadium atom-adsorbed MoSe 2 monolayer. Chinese Phys B 2017;26:027103. doi:10.1088/1674-1056/26/2/027103.
[10] Chen Z, Wang J, Song Y, Zuo X. First-principles investigation of oxygen-excess defects in amorphous silica. AIP Advances 2017;7:105118. doi:10.1063/1.**.
[11] Wu YL, Zhu LL, Wu Q, Sun F, Wei JK, Tian YC, et al. Electronic origin of spatial self-phase modulation: Evidenced by comparing graphite with C-60 and graphene. Applied Physics Letters 2016;108:241110. doi:10.1063/1.**.
[12] Qin Z, Liu P, Feng M, Zuo X. Ferrimagnetism of Ti-Adsorbed Graphene. Ieee Transactions on Magnetics 2016;52:**. doi:10.1109/TMAG.2015.**.
[13] Lu Y, Zhou T, Shao B, Zuo X, Feng M. Carrier-dependent magnetic anisotropy of Gd-adsorbed graphene. Aip Advances 2016;6:055708. doi:10.1063/1.**.
[14] Feng M, Shao B, Cao X-W, Zuo X. Half-Metallicity in CuCr2S4 Film: A Density Functional Study. Ieee Transactions on Magnetics 2016;52:**. doi:10.1109/TMAG.2016.**.
[15] Shao B, Shi W-J, Feng M, Zuo X. Large perpendicular magnetic anisotropy of single Co atom on MgO monolayer: A first-principles study. Journal of Applied Physics 2015;117:17B316. doi:10.1063/1.**.
[16] Feng M, Shao B, Cao X, Zuo X. Dirac cones in transition metal doped boron nitride. Journal of Applied Physics 2015;117:17C118. doi:10.1063/1.**.
[17] Zhang Y-F, Feng M, Shao B, Lu Y, Liu H, Zuo X. Ab initio calculations on magnetism induced by composite defects in magnesium oxide. Journal of Applied Physics 2014;115:17A926. doi:10.1063/1.**.
[18] Wang M, Feng M, Zuo X. First principles study of the electronic structure and magnetism of oxygen-deficient anatase TiO2 (001) surface. Applied Surface Science 2014;292:475–9. doi:10.1016/j.apsusc.2013.11.165.
[19] Wang M, Feng M. Ab initio study on magnetism at TiO2/SrTiO3 interface. Computational Materials Science 2014;86:43–8. doi:10.1016/j.commatsci.2014.01.025.
[20] Shao B, He Y, Feng M, Lu Y, Zuo X. Unexpected magnetic anisotropy induced by oxygen vacancy in anatase TiO2: A first-principles study. J Appl Phys 2014;115:17A915. doi:10.1063/1.**.
[21] Shao B, Feng M, Zuo X. Carrier-dependent magnetic anisotropy of cobalt doped titanium dioxide. Scientific Reports 2014;4:7496. doi:10.1038/srep07496.
[22] Lu Y, Feng M, Shao B, Zuo X. Dirac cones in artificial structures of 3d transitional-metals doped Mg-Al spinels. Journal of Applied Physics 2014;115:17E119. doi:10.1063/1.**.
[23] Feng M, Shao B, Lu Y, Zuo X. Exchange integrals in magnetoelectric hexagonal ferrite (SrCo2Ti2Fe8O19): A density functional study. Journal of Applied Physics 2014;115:17D908. doi:10.1063/1.**.
[24] Zhao-Fu Z, Tie-Ge Z, Xu Z. First-principles calculations of h-BN monolayers by doping with oxygen and sulfur. Acta Physica Sinica 2013;62:083102. doi:10.7498/aps.62.083102.
[25] Shao B, Feng M, Liu H, Wu J, Zuo X. Ab initio study of magnetic anisotropy in cobalt doped zinc oxide with electron-filling. Journal of Applied Physics 2013;113:17C728. doi:10.1063/1.**.
[26] Lu Y, Zuo X, Feng M, Zhou T. Magnetic anisotropy in the boron nitride monolayer doped by 3d transitional metal substitutes at boron-site. Journal of Applied Physics 2013;113:17C304. doi:10.1063/1.**.
[27] Feng M, Shao B, Wu J, Zuo X. Ab initio study on magnetic anisotropy change of SrCoxTixFe12-2xO19. Journal of Applied Physics 2013;113:17D909. doi:10.1063/1.**.
[28] Zhang Y, Liu H, Wu J, Zuo X. Impacts of enhanced electronic correlation in anion p-orbitals on electronic structure and magnetic properties of nitrogen or carbon doped zinc oxide. Journal of Applied Physics 2012;111:07E313. doi:10.1063/1.**.
[29] Yue-Ying L, Tie-Ge Z, Yuan L, Xu Z. First principles caculations of h-BN monolayer with group IA/IIA elements replacing B as impurities. Acta Physica Sinica 2012;61:236301. doi:10.7498/aps.61.236301.
[30] Tie-Ge Z, Zhi-Qiang L, Xu Z. First-Principles Study of Doped Half-Metallic Spinels: Cu0.5Zn0.5Cr2S4, Cu0.5Cd0.5Cr2S4, Li0.5Zn0.5Cr2O4 and Li0.5Zn0.5Cr2S4. Chinese Physics Letters 2012;29:047503. doi:10.1088/0256-307X/29/4/047503.
[31] Shao B, Liu H, Wu J, Zuo X. Ab initio calculation of the local magnetic moment in titanium doped zinc oxide with a corrected-band-gap scheme. Journal of Applied Physics 2012;111:07C301. doi:10.1063/1.**.
[32] Zhang Y-F, Liu H, Wu J, Zuo X. Ab Initio Study on Nitrogen or Carbon Doped Magnesium Oxide. Ieee Transactions on Magnetics 2011;47:2928–30. doi:10.1109/TMAG.2011.**.
[33] Shao B, Liu H, Zuo X. Ab-initio Calculation of Magnetic Anisotropy Energy of Iron-Gallium Alloy in L1(2) Phase. Ieee Transactions on Magnetics 2011;47:2908–11. doi:10.1109/TMAG.2011.**.
[34] Feng M, Zuo X, Vittoria C, Harris VG, Wu J. Ab Initio Study on Manganese Doped Cadmium Ferrite (Cd1-xMnxFe2O4). Ieee Transactions on Magnetics 2011;47:324–32. doi:10.1109/TMAG.2010.**.
[35] Feng M, Yang A, Zuo X, Vittoria C, Harris VG. Ab initio study on copper ferrite. Journal of Applied Physics 2010;107:09A521. doi:10.1063/1.**.
[36] Zuo X, Yoon S-D, Yang A, Duan W-H, Vittoria C, Harris VG. Ferromagnetism in pure wurtzite zinc oxide. Journal of Applied Physics 2009;105:07C508. doi:10.1063/1.**.
[37] Zhang X, Cheng YH, Li LY, Liu H, Zuo X, Wen GH, et al. Evidence for high-T-c ferromagnetism in Zn-x(ZnO)(1-x) granular films mediated by native point defects. Physical Review B 2009;80:174427. doi:10.1103/PhysRevB.80.174427.
[38] Harris VG, Geiler A, Chen Y, Yoon SD, Wu M, Yang A, et al. Recent advances in processing and applications of microwave ferrites. Journal of Magnetism and Magnetic Materials 2009;321:2035–47. doi:10.1016/j.jmmm.2009.01.004.
[39] Geiler AL, Yang A, Zuo X, Yoon SD, Chen Y, Harris VG, et al. Realization of Far From Equilibrium Cation Distributions in Ferrites. Ieee Transactions on Magnetics 2009;45:666–9. doi:10.1109/TMAG.2008.**.
[40] Feng M, Cao X, Yang A, Zuo X, Vittoria C, Harris VG. Electronic Structure and Magnetic Properties of Spinel LiCr2O4: A GGA+ U Study. Ieee Transactions on Magnetics 2009;45:3985–8. doi:10.1109/TMAG.2009.**.
[41] Zuo X, Yoon S-D, Yang A, Vittoria C, Harris VG. Ab initio calculation on ferromagnetic reduced anatase TiO(2-delta). Journal of Applied Physics 2008;103:07B911. doi:10.1063/1.**.
[42] Yoon SD, Chen Y, Yang A, Goodrich TL, Zuo X, Ziemer K, et al. Magnetic semiconducting anatase TiO2-delta grown on (100) LaAlO3 having magnetic order up to 880 K (vol 309, pg 171, 2007). Journal of Magnetism and Magnetic Materials 2008;320:597–9. doi:10.1016/j.jmmm.2007.05.037.
[43] Yang A, Chen Z, Geiler AL, Zuo X, Haskel D, Kravtsov E, et al. Element- and site-specific oxidation state and cation distribution in manganese ferrite films by diffraction anomalous fine structure. Applied Physics Letters 2008;93:052504. doi:10.1063/1.**.
[44] Tao Z, Lan F, XinJie Z, Xu Z, TieGe Z, ShaoLin Y. HTS filter subsystem for future mobile communication system. Science in China Series F-Information Sciences 2008;51:1384–90. doi:10.1007/s11432-008-0085-2.
[45] Geiler AL, Yang A, Zuo X, Yoon SD, Chen Y, Harris VG, et al. Structural, Magnetic, and Microwave Properties of BaFe10.5Mn1.5O19 Thin Films. Ieee Transactions on Magnetics 2008;44:2966–9. doi:10.1109/TMAG.2008.**.
[46] Geiler AL, Yang A, Zuo X, Yoon SD, Chen Y, Harris VG, et al. Atomic scale design and control of cation distribution in hexagonal ferrites. Physical Review Letters 2008;101:067201. doi:10.1103/PhysRevLett.101.067201.
[47] Zuo T, Fang L, Wu ZZ, Zhou TG, Ji L, Xie QL, et al. A self-equalized HTS filter for future mobile communication applications. Physica C-Superconductivity and Its Applications 2007;459:1–4. doi:10.1016/j.physc.2007.03.396.
[48] Yoon SD, Chen Y, Yang A, Goodrich TL, Zuo X, Ziemer K, et al. Magnetic semiconducting anatase TiO2-delta grown on (100) LaAlO3 having magnetic order up to 880 K. Journal of Magnetism and Magnetic Materials 2007;309:171–5. doi:10.1016/j.jmmm.2006.05.014.
[49] Zuo X, Yan S, Barbiellini B, Harris VG, Vittoria C. A Computational Study of Nickel Ferrite. Journal of Magnetism and Magnetic Materials 2006;303:E432–5. doi:10.1016/j.jmmm.2006.01.102.
[50] Zuo X, Yang A, Vittoria C, Harris VG. Computational study of copper ferrite (CuFe2O4). Journal of Applied Physics 2006;99:08M909. doi:10.1063/1.**.
[51] Zhou T-G, Yan S-L, Fang L, Zuo X, Li S, Ji L, et al. Inductance of long intrinsic Josephson junction arrays composited of misaligned Tl2Ba2CaCu2O8 thin films. Chinese Physics Letters 2006;23:1935–8.
[52] Zhao XJ, Ji L, Zhang C, Chen E, Zhou TG, Zhang X, et al. Tl2Ba2CaCu2O8 thin films on MgO and sapphire substrates. Journal of the Korean Physical Society 2006;48:1143–6.
[53] Yoon SD, Chen Y, Yang A, Goodrich TL, Zuo X, Arena DA, et al. Oxygen-defect-induced magnetism to 880 K in semiconducting anatase TiO2-delta films. Journal of Physics-Condensed Matter 2006;18:L355–61. doi:10.1088/0953-8984/18/27/L01.
[54] Yang A, Zuo X, Vittoria C, Harris VG. Magnetism, structure, and cation distribution in MnFe2O4 films processed by conventional and alternating target laser ablation deposition. Ieee Transactions on Magnetics 2006;42:2870–2. doi:10.1109/TMAG.2006.879959.
[55] Kravtsov E, Haskel D, Cady A, Yang A, Vittoria C, Zuo X, et al. Site-specific local structure of Mn in artificial manganese ferrite films. Physical Review B 2006;74:104114. doi:10.1103/PhysRevB.74.104114.
[56] Zuo X, Yang A, Yoon SD, Christodoulides JA, Harris VG, Vittoria C. Magnetic properties of manganese ferrite films grown at atomic scale. Journal of Applied Physics 2005;97:10G103. doi:10.1063/1.**.
[57] Zuo X, Yang A, Yoon SD, Christodoulides JA, Harris VG, Vittoria C. Large induced magnetic anisotropy in manganese spinel ferrite films. Applied Physics Letters 2005;87:152505. doi:10.1063/1.**.
[58] Zuo X, He YX, Yang A, Bernardo B, Harris VG, Vittoria C. Calculation of exchange constants in spinel ferrites with magnetic S-state ions. Journal of Applied Physics 2005;97:10F104. doi:10.1063/1.**.
[59] Yang A, Chen Z, Zuo X, Arena D, Kirkland J, Vittoria C, et al. Cation-disorder-enhanced magnetization in pulsed-laser-deposited CuFe2O4 films. Applied Physics Letters 2005;86:252510. doi:10.1063/1.**.
[60] Zuo X, Yoon SD, Vittoria C. Epitaxial growth of artificial ferrites at the atomic scale. Journal of Magnetism and Magnetic Materials 2004;272:E1795–7. doi:10.1016/j.jmmm.2003.12.861.
[61] Zuo X, Yang F, Mafhoum R, Karim R, Tebano A, Balestrino G, et al. Manganese ferrite grown at the atomic scale. Ieee Transactions on Magnetics 2004;40:2811–3. doi:10.1109/TMAG.2004.830447.
[62] Zuo X, Barbiellini B, Vittoria C. Calculation of exchange constants in manganese ferrite (MnFe2O4). Journal of Magnetism and Magnetic Materials 2004;272:306–11. doi:10.1016/j.jmmm.2003.12.466.
[63] Yang A, Harris VG, Calvin S, Zuo X, Vittoria C. Extended X-ray absorption fine structure analysis of cation distribution in MnFe2O4 single crystal films and artificial ferrite structures. Ieee Transactions on Magnetics 2004;40:2802–4. doi:10.1109/TMAG.2004.832246.
[64] Zuo X, Vittoria C. The dependence of exchange constants and electronic structure of manganese ferrite on the scaling factor. Ieee Transactions on Magnetics 2003;39:3133–5. doi:10.1109/TMAG.2003.816029.
[65] Zuo X, Vittoria C. Calculation of exchange integrals and electronic structure of manganese ferrite (MnFe2O4). Journal of Applied Physics 2003;93:8017–9. doi:10.1063/1.**.
[66] Zuo X, How H, Somu S, Vittoria C. Self-biased circulator/isolator at millimeter wavelengths using magnetically oriented polycrystalline strontium M-type hexaferrite. Ieee Transactions on Magnetics 2003;39:3160–2. doi:10.1109/TMAG.2003.816043.
[67] Zuo X, Vittoria C. Calculation of exchange integrals and electronic structure for manganese ferrite. Physical Review B 2002;66:184420. doi:10.1103/PhysRevB.66.184420.
[68] Zuo X, Shi P, Oliver SA, Vittoria C. Single crystal hexaferrite phase shifter at Ka band. Journal of Applied Physics 2002;91:7622–4. doi:10.1063/1.**.
[69] Zuo X, How H, Shi P, Olivier SA, Vittoria C. Zn2Y hexaferrite (Ba2Zn2Fe12O22) single-crystal microstripline phase shifter. Ieee Transactions on Magnetics 2002;38:3493–7. doi:10.1109/TMAG.2002.802710.
[70] Obol M, Zuo X, Vittoria C. Oriented Y-type hexaferrites for ferrite device. Journal of Applied Physics 2002;91:7616–8. doi:10.1063/1.**.
[71] How H, Zuo X, Hokanson E, Kempel LC, Vittoria C. Calculated and measured characteristics of a microstrip line fabricated on a Y-type hexaferrite substrate. Ieee Transactions on Microwave Theory and Techniques 2002;50:1280–8.
[72] Zuo X, How H, Shi P, Oliver SA, Vittoria C. Development of high frequency ferrite phase-shifter. Ieee Transactions on Magnetics 2001;37:2395–7.
[73] Yoon SD, Shi P, Zuo X, Oliver SA, Vittoria C. Ferrimagnetic resonance linewidths of thick barium hexaferrite films on MgO (111). Ieee Transactions on Magnetics 2001;37:2383–5. doi:10.1109/20.951179.
[74] Shi P, How H, Zuo X, Yoon SD, Oliver SA, Vittoria C. MMIC circulators using hexaferrites. Ieee Transactions on Magnetics 2001;37:2389–91.
[75] Shi P, How H, Zuo X, Oliver SA, McGruer NE, Vittoria C. Application of single-crystal scandium substituted barium hexaferrite for monolithic millimeter-wavelength circulators. Ieee Transactions on Magnetics 2001;37:3941–6. doi:10.1109/20.966130.
[76] How H, Zuo X, Vittoria C. Dyadic Green’s function calculations on a layered dielectric/ferrite structure. Journal of Applied Physics 2001;89:6722–4. doi:10.1063/1.**.
[77] Shi P, Yoon SD, Zuo X, Kozulin I, Oliver SA, Vittoria C. Microwave properties of pulsed laser deposited Sc-doped barium hexaferrite films. Journal of Applied Physics 2000;87:4981–3. doi:10.1063/1.373222.
[78] Shi P, How H, Zuo X, Oliver SA, McGruer NE, Vittoria C. MMW monolithic Y-junction circulator on single-crystal Sc-doped Ba-hexaferrite. In: Perkins T, editor. 2000 Ieee Mtt-S International Microwave Symposium Digest, Vols 1-3, 2000, p. 909–12.
[79] Oliver SA, Yoon SD, Kozulin I, Shi P, Zuo X, Vittoria C. Substituted barium hexaferrite films for planar integrated phase shifters. In: Jia QX, Miranda FA, Oates DE, Xi XX, editors. Materials Issues for Tunable Rf and Microwave Devices, vol. 603, 2000, p. 101–5.
[80] Oliver SA, Yoon SD, Kozulin I, Chen ML, Zuo X, Vittoria C. Heteroepitaxial barium hexaferrite films on (111) magnesium oxide substrates. In: Ginley DS, Perkins JD, Kawazoe H, Newns DM, Kozyrev AB, editors. Materials Science of Novel Oxide-Based Electronics, vol. 623, 2000, p. 137–42.





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