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E-mail: htyang@iphy.ac.cn
Tel: +86-10-82649135

杨海涛 博士

中国科学院物理研究所 副研究员

 

 

 
简 历

1994.09-1998.06,理学学士,材料科学与工程专业,中国地质大学(武汉)材料科学与工程系
1998.09-2001.06,理学硕士,材料物理与化学专业,中国地质大学(武汉)材料科学与化学工程学院
2001.09-2004.06,  理学博士,凝聚态物理专业,中国科学院物理研究所纳米物理与器件实验室

 

 

 

 
研究领域

  1. 二维原子晶体材料的可控制备及其多场作用下的物理性能研究
  2. 低维磁性纳米材料的可控制备及其高频性能(GHz频段)的研究
 
工作经历

 

2004.07-2006.11,日本东北大学(Tohoku University)电子工程系21世纪COE全球网络信息电子器件系统构筑项目研究员,
                  
2006.12-2008.11,日本东北大学(Tohoku University)未来科学技术共同研究中心,日本学术振兴会(JSPS)特别研究员,

2009.7-2018.8,     副研究员, 博导,中国科学院物理研究所磁学国家重点实验室

2016.10-2017.2   美国布朗大学(Brown University),访问学者

2018.9-至今,     副研究员, 博导,中国科学院物理研究所纳米物理与器件实验室



 

发表文章

In IOP:

  1. [1] Ningning Song, Shangzhi Gu, Jun Zhou, Weixing Xia, Panpan Zhang, Qeemat Gul, Wei Wang, Haitao Yang*, and Zhaohua Cheng, “Achieving a high cutting-off frequency in the oriented CoFe2O4 nanocubes”, Appl.Phys.Lett., 2017, 111, 133108.
    [2] Ningning Song, Haitao Yang*, Yi Luo, Xiao Ren, Jun Zhou, Sai Geng, Guoping Zhao, Xiangqun Zhang, and Zhaohua Cheng,“Well-controlled exchange bias effect in MnO@Mn3O4 core-shell nanoparticles with an inverted coupling structures”, AIP Advances, 2017, 7, 045316.
    [3] X. Ren, H. Y. Yang, * J. Tang, Z. A. Li, Y. K. Su, S. Geng, J Zhou, X. Q. Zhang, and Z. H. Cheng, “An effective way to increase the high-frequency permeability of Fe3O4 nanorods”, Nanoscale, 8(2016), 12910.
    [4] X. Ren, H. Y. Yang*, S. Gen, J. Zhou, T. Z. Yang, X. Q. Zhang, Z.H. Cheng and S.H. Sun, “Controlled growth of LaFeO3 nanoparticles on reduced graphene oxide for highly efficient photocatalysis”,Nanoscale, 8(2016), 752.
    [5] S. Y. Xu, Y. S. Wang, L. B. Ben, Y. C.  Lyu, N. N. Song, Z. Z. Yang, Y. M. Li, L. Q. Mu, H. T. Yang *, L. Gu, Y. S. Hu, H. Li, Z. H. Cheng, L.Q. Chen, and X. J. Huang , “Fe-Based Tunnel-Type Na0.61[Mn0.27Fe0.34Ti0.39]O2 Designed by a New Strategy as Cathode Material for Sodium-Ion Batteries”, Adv. Energy Mater., 5 (2015), 1501156.
    [6] Y. L. Wang, L. F. Li, W. Yao, S. R. Song, J. T. Sun, J. B. Pan, X. Ren, C. Li, E. Okunishi, Y. Q. Wang, E. Y. Wang, Y. Shao, Y. Y. Zhang, H. T. Yang, E. F. Schwier, H. Iwasawa, K. Shimada, M. Taniguchi, H. Cheng, S. Y. Zhou, S. X. Du, S. J. Pennycook, S. T. Pantelides, and H. J. Gao, “Monolayer PtSe2, a New Semiconducting Transition-Metal-Dichalcogenide, Epitaxially Grown by Direct Selenization of Pt”, Nano Lett., 15(2015), 4013.
    [7] L. P. Liu, H. T. Yang *, X. Ren, J. Tang, Y. F. Li, X. Q. Zhang and Z. H. Cheng “Au–ZnO hybrid nanoparticles exhibiting strong charge-transfer-induced SERS for recyclable SERS-active substrates”,Nanoscale, 7 (2015), 5147.
    [8] T. H. Wang, Y. F. Li, L.N. Wang, C. Liu, S.Geng, X. L. Jia, F. Yang, L. Q. Zhang, L. P. Liu, B. You, X. Ren and H. T. Yang, “Synthesis of graphene/a-Fe2O3 composites with excellent electromagnetic wave absorption properties” RSC Adv., 5 (2015), 60114
    [9] Y. K. Su, H. Liu, M. Feng, Z. L.Yan, Z. H. Cheng, J. N.Tang, H. T. Yang *, “Bimetallic Pt3Co nanowires as electrocatalyst: the effects of thermal treatment on electrocatalytic oxidation of Methanol” ELECTROCHIMICA ACTA, 161(2015), 124.
    [10] Y. K. Su, Z. L. Yan, X. M. Wu, H. Liu, R. Xiao, and H. T. Yang*, “Magnetic optical bifunctional CoPt3/Co multilayered nanowire arrays”, Chin. Phys. B, 24 (2015), 107505.
    [11] H. F. Ding, H. T. Yang *, L.P. Liu, X. Ren, N.N. Song, J. Shen, X.Q. Zhang, Z.H. Cheng, G.P. Zhao, “High-frequency properties of oil-phase-synthesized ZnO nanoparticles”, Chin. Phys. B, 24 (2015), 027804.
    [12] F. Wang, H. Wei, L. Liu, H. T. Yang, J. Zhang, , J. Du, W. Xia, A. Yan, and J. P. Liu, “PrCo5 nanoflakes prepared by surfactant-assisted ball milling at low temperature”, J. Appl. Phys., 117(2015), 17D142.
    [13] L.N. Wang, X. L. Jia, Y. F. Li, F. Yang, L.Q. Zhang, L. P. Liu, X. Ren, and H. T. Yang *, “Synthesis and Microwave Absorption Property of Flexible Magnetic Film Based on Graphene Oxide/Carbon nanotubes and Fe3O4 Nanoparticles”, J. Mater. Chem. A, 2 (2014), 14940,
    [14] Y. J. Jia, W. He, J. Ye, B. Hu, Z.Y. Chen, Y.H. Gao, X. Q. Zhang, H. T. Yang, Z. H. Cheng, “Determination of the magnetic anisotropy constant of Cu/Fe/SiO2/Si by a magneto-optical Kerr effect susceptometer”, Chin. Phys. B, 24 (2015), 027804.
    [15] N. N. Song, H. T. Yang *, X. Ren, Z. A. Li, Y. Luo, J. Shen,W. Dai , X. Q. Zhang, Z. H. Cheng, “Non-monotonic size change of monodisperse Fe3O4 nanoparticles in the scale-up synthesis”,Nanoscale, 5 (2013), 2804.
    [16] Y. K. Su, J. N. Tang, H. T. Yang * and Z. H. Cheng, “Multifunctional multisegmented Co/CoPt3 heterostructure nanowires”, Nanoscale, 5 (2013), 9709.
    [17] N. N. Song, H. T. Yang *, H. L. Liu, X. Ren, H. F. Ding, X. Q. Zhang, Z. H. Cheng, “Exceeding natural resonance frequency limit of monodisperse Fe3O4 nanoparticles via superparamagnetic relaxation”, Scientific Reports, 3 (2013), 3161.
    [18] N. N. Song, Y. J. Ke, H. T. Yang, H. Zhang, X.Q. Zhang, B.G. Shen, Z. H. Cheng, “Integrating giant microwave absorption with magnetic refrigeration in one multifunctional intermetallic compound of LaFe11.6Si1.4C0.2H1.7”, Scientific Reports, 3 (2013), 2291.
    [19] Q. Wu, W. He, H. L. Liu, J. Ye, X. Q. Zhang, H. T. Yang, Z. Y. Chen, Z. H. Cheng, “Tuning magnetic anisotropies of Fe films on Si(111) substrate via direction variation of heating current”, Scientific Reports, 3 (2013), 1547.
    [20] N. N. Song, H. T. Yang *, F. Y. Li, Z. A. Li, W. Han, X. Ren, Y. Luo, X. C. Wang, C.Q. Jin, X.Q. Zhang, and Z. H. Cheng, “Interspacing dependence of spin-dependent variable range hopping for cold-pressed Fe3O4 nanoparticles”, J. Appl. Phys., 113(2013), 184309.
    [21] W. He, T. Zhu, X. Q. Zhang, H. T. Yang and Z. H. Cheng, “Ultrafast demagnetization enhancement in CoFeB/MgO/CoFeB magnetic tunneling junction driven by spin tunneling current”, Scientific Reports, 3(2013), 2883.
    [22] K. Xu, Y. F. Li, C. M. Xu, J. S. Gao, H. W. Liu, H. T. Yang, P. Richard, “Controllable synthesis of single-, double- and triple-walled carbon nanotubes from asphalt”, Chemical Engineering Journal, 225 (2013), 210.
    [23] Y. Luo, G. P. Zhao, H. T. Yang *, N. N. Song, X. Ren, H. F. Ding, and Z. H. Cheng, “Exchange bias effect in single crystalline phase MnO nanoparticles”, ACTA PHYSICA SINICA, 62(2013), 176102.
    [24] H. L. Liu, W. He, Q. Wu, J. Ye, X.Q. Zhang, H. T. Yang, and Z.H. Cheng, “Magnetic anisotropy of ultrathin Fe films grown on vicinal Si (111)”, AIP Advances, 3 (2013), 062101.
    [25] H. L. Liu, W. He, H.F. Du, Y.P. Fang, Q. Wu, X.Q. Zhang, H. T. Yang, Z. H. Cheng, “Magnetic anisotropy and magnetization reversal of ultrathin iron films with in-plane magnetization on Si(111) substrates”, CHINESE PHYSICS B, 21 (2012), 077503.
    [26] H. T. Yang *, H. L. Liu, N. N. Song, H. F. Du, X. Q. Zhang, Z. H. Cheng, J. Shen, and L. F. Li, “Determination of the Critical Interspacing for the Noninteracting Magnetic Nanoparticle System”, Appl. Phys. Lett., 98 (2011), 153112.
    [27] T. Ogawa, K. Seto, D. Hasegawa, H. T. Yang, H. Kura, M. Doi, and M. Takahashi, “Effect of Nucleation and Growth Dynamics on Saturation Magnetization of Chemically Synthesized Fe Nanoparticles”, Journal of Magnetics, 16 (2011), 308.
    [28] H. T. Yang*, C.M. Shen, N.N. Song, T.Z. Yang, H.J. Gao and Z.H. Cheng, “Facile Synthesis of Hollow Nano-Sphere and Hemisphere of Cobalt by Polyol Reduction”, Nanotechnology, 21(2010), 375602.
    [29] Y. P. Fang, W. He, H.L. Liu, Q.F. Zhan, H.F. Du, Q. Wu, H. T. Yang, X.Q. Zhang, and Z.H. Cheng,  “Surface morphology and magnetic anisotropy of obliquely deposited Co/Si(111) films”, Appl. Phys. Lett. 97(2010),022507.
    [30] Y. P. Fang, W. He, H.F. Du, H.L. Liu, Q. Wu, X.Q. Zhang, H. T. Yang, Z.H. Cheng, and J. Shen, “Improvement of the  uniformity and dipole ferromagnetism in Co nanodots assemblies on Pb/Si(111) via step tuned dimensionality variation”, Nanotechnology, 21(2010), 465703.
    [31] H. T. Hai, H. T. Yang, H. Kura, D. Hasegawa, Y. Ogata,M. Takahashi and T. Ogawa, J. Colloid Interface Sci., 346 (2010), 37.
    [32] H. T. Yang*, D. Hasegawa, T. Migaku, and T. Ogawa, “ Achieving a noninteracting magnetic nanoparticle system through direct control of interparticle spacing ”, Appl. Phys. Lett., 94 (2009), 013103.
    [33] D. Hasegawa, H. T. Yang, T. Ogawa, M. Takahashi, “Challenge of ultra high frequency limit of permeability for magnetic nanoparticle assembly with organic polymer-Application of superparamagnetism ”, J. Magn. Magn. Mater., 321(2009), 746.   
    [34] H. T. Yang *, T. Ogawa, D. Hasegawa, and T. Migaku, “Synthesis and magnetic properties of monodisperse magnetite nanocubes”, J. Appl. Phys., 103(2008), 07D526.
    [35] H. T. Yang*, D. Hasegawa, T. Migaku, and T. Ogawa, “Facile Synthesis, Phase Transfer, and Magnetic Properties of Monodisperse Magnetite Nanocubes”, IEEE Transactions on Magnetics, 44(2008), 3895.
    [36] H. T. Yang*, T. Ogawa, D. Hasegawa, and T. Migaku, “Gram-scale synthesis of monodisperse Fe nanopartricles in one pot”,  Scripta materialia, 58 (2008), 822.
    [37] H. Matsuura, K. Seto, H. T. Yang, K. Kawano, M. Takahashi, T. Ogawa, “Influence of oxidation and size of iron nanoparticles on the saturation magnetization”, IEEE Transactions on Magnetics, 44 (2008), 2804.
    [38] H. T. Yang*, F. Ito, D. Hasegawa, T. Ogawa, and  T. Migaku, “Faciile large-scale synthesis of monodisperse Fe nanoparticles by modest-temperature decomposition of iron carbony”, J. Appl. Phys., 101(2007), 09J112.
    [39] H. T. Yang*, T. Ogawa, D. Hasegawa, and T. Migaku, “Shape-controlled synthesis of Fe nanoparticles with high-Ms via modest-temperature reduction method”, Phys. Stat. Sol. A-Appl. and Mater. Sci., 204 (2007), 4013.
    [40] C. N. Chinnasamy, T. Ogawa, D. Hasegawa, H. T. Yang, S. D. Yoon, V. G.Harris, T. Migaku, “Synthesis and magnetic properties of Co1-xIrx alloy nanoparticles for high-frequency applications ”, IEEE Transactions on Magnetics, 43 (2007), 3112.
    [41] Y. K. Su , C. M. Shen, H. T. Yang, H. L. Li, H. J. Gao,Controlled synthesis of highly ordered CuO nanowire arrays by template-based sol-gel route ”, Transactions of Nonferrous Metals Society of China, 17 (2007),  78.
    [42] H. T. Yang*, T. Ogawa, D. Hasegawa, C. N. Chinnasamy, M. Takahashi, “Hetergeneous-nucleation synthesis of monodisperse ε-cobalt nanoparticles using palladium seeds”, J. Magn. Magn. Mater., 304(2006), e10.
    [43] T. Ogawa, Y. Takahashi, H. T. Yang, K. Kimura, M. Sakurai, M. Takahashi, “Fabrication of Fe3O4 nanoparticle arrays via patterned template assisted self-assembly”, Nanotechnology, 17 (2006), 5539.
    [44] T. Z Yang, C. M. Shen, H. T. Yang, C. W. Xiao, Z. C. Xu, S. T. Chen, D. X Shi and H. J. Gao, “Synthesis, characterization and self-assemblies of magnetite nanoparticles”,Surface and Interface Analysis, 38 (2006), 1063.
    [45] C. W Xiao, H. T. Yang, C. M. Shen, Z. A. Li, H. R. Zhang, F. Liu, T. Z. Yang, S. T. Chen, H. J. Gao, “Controlled growth of large-scale silver nanowires”, Chinese Physics,14 (2005), 2269.
    [46] Y. K. Su , C. M. Shen, T. Z. Yang, H. T. Yang, H. J. Gao, H. L. Li,  “The dependence of Co nanoparticle sizes on the ratio of surfactants and the influence of different crystal sizes on magnetic properties” Appl. Phys. A-Mater.  Sci. & Pro.,  81 (2005), 569.
    [47] H. T. Yang, C. M. Shen, Y. K. Su, T. Z. Yang, H. J. Gao, “Synthesis and magnetic properties of epsilon-cobalt nanoparticles”, Surface and Interface Analysis 36 (2004), 155.
    [48] Y. K. Su , C. M. Shen, T. Z. Yang, H. T. Yang, H. J. Gao, H. L. Li, “Synthesis of cobalt nanocrystals by high temperature solution phase reducing method and their two-dimensional ordered superlattices”, Chem. J. of Chin. Univ.-Chin., 25 ( 2004), 227.
    [49] H. W . Liu, H. M . Guo, Y. L. Wang , C. M . Shen, H. T. Yang, Y. T . Wang, L . Wei, “Formation of self-assembled stripes on the anodic aluminum oxide”, ACTA PHYSICA SINICA, 53 (2004), 656.
    [50] H. T. Yang, C. M. Shen, Y. G. Wang, Y. K. Su, T. Z. Yang, H. J. Gao, “Stable cobalt nanoparticles passivated with oleic acid aind triphenylphosphine” , Nanotechnology (1): 70-74 JAN 2004
    [51] H. T. Yang, C. M. Shen, Y. K. Su , T. Z. Yang, H. J. Gao, and Y. G. Wang,  “Self-assembly and magnetic properties of cobalt nanoparticles”, Appl. Phys. Lett.,82 (2003 ): 4729.
    [52] H. T. Yang, C. M. Shen, Y. K. Su , T. Z. Yang, Y. G. Wang, Y. P. Wang, H. J. Gao, “Ordered arrays and magnetic properties of cobalt nanoparticlesACTA PHYSICA SINICA 52 (2003), 3114. 
    [53] H. T. Yang, C. M. Shen, and H. J. Gao,Solution-phase Synthesis of Metal Nanoparticles”, Physics, 32 (2003), 520.
    [54] C. M. Shen, Y. K. Su , H. T. Yang, T. Z. Yang, H. J. Gao, “Synthesis and characterization of n-octadecayl mercaptan-protected palladium nanoparticles”, Chem. Phys. Lett., 373 (2003), 39.
    [55] C. M. Shen, Y. K. Su , H. T. Yang, T. Z. Yang, Y. P. Wang, H. J. Gao, “Self-assembled two-dimensional structure of magnetic cobalt nanocrystals”, ACTA PHYSICA SINICA, 52 (2003), 483.


 
     

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