中国科学院物理研究所 研究员

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

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
2018.9-2021.8      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
2021.8-至今         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

主要从事低维材料的电学、磁学、超导、拓扑等物性的研究,在kagome晶格材料体系的磁性、电学和量子态、铁磁氧化物的自旋相关效应提升电催化效率的作用机制和磁性低维材料的可控制备与磁机制研究等方面取得了重要的进展。制备出超导转变温度Tc~3.7 K的高质量Kagome结构CsV3Sb5单晶,发现了其超导混合态的面内载流子的二重各向异性、在动量空间具有强各向异性的CDW能隙、配对密度波(PDW)等非常规超导电性。共发表 SCI 学术论文九十余篇,其中Nature 1篇,Nature子刊4篇,Adv.Mater.1篇,Adv.Energy Mater. 1篇,Nano Lett. 3 篇等。受邀在《Small Structures》等杂志上发表综述文章1篇,应邀在国际真空大会、中国物理学会年会、中国真空学会纳米与表面会议、中国应用磁学分会年会等国际/国内重要学术会议上做邀请报告 20 余次。是英国 Physical Chemistry and Chemical Physics 杂志的编委。相关研究工作被选为 Nature Community 的“Editors' Suggestion”。主持多项基金委项目和中科院重点项目。 培养/协助培养博士研究生 20 余名。

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

 

  1. Jun Luo, Z. Zhao, Y. Z. Zhou, J. Yang, A. F. Fang, Haitao Yang*, Hong-Jun Gao, Rui Zhou & Guo-qing Zheng. Possible star-of-David pattern charge density wave with additional modulation in the kagome superconductor CsV3Sb5. npj Quantum Mater. 7 (2022) , 30
  2. Geng Li, Haitao Yang#, Peijie Jiang, Cong Wang, Qiuzhen Cheng, Shangjie Tian, Guangyuan Han, Chengmin Shen, Xiao Lin, Hechang Lei, Wei Ji, Ziqiang Wang & Hong-Jun Gao. Chirality locking charge density waves in a chiral crystal. Nature Communications, 13(2022),2914.
  3. Hui Chen, Haitao Yang#, Bin Hu, Zhen Zhao, Jie Yuan, Yuqing Xing, Guojian Qian, Zihao Huang, Geng Li, Yuhan Ye, Sheng Ma, Shunli Ni, Hua Zhang, Rui Zhou, Qiangwei Yin, Chunsheng Gong, Zhijun Tu, Hechang Lei, Hengxin Tan, Sen Zhou, Chengmin Shen, Xiaoli Dong, Binghai Yan, Ziqiang Wang, and Hong-Jun Gao, Roton pair density wave and unconventional strong-coupling superconductivity in a topological kagome metal. Nature 599,222 (2021)
  4. Tianze Wu, Xiao Ren, Yuanmiao Sun, Shengnan Sun, Guoyu Xian, Günther G. Scherer, Adrian C. Fisher, Daniel Mandler, Joel W. Ager, Alexis Grimaud, Junling Wang, Chengmin Shen, Haitao Yang*, Jose Gracia, Hong-Jun Gao, and Zhichuan J. Xu, Spin pinning effect to reconstructed oxyhydroxide layer on ferromagnetic oxides for enhanced water oxidation, Nature Communications, 12(2021), 3634.
  5. Xiao Ren, Tianze Wu, Yuanmiao Sun, Yan Li, Guoyu Xian, Xianhu Liu, Chengmin Shen, Jose Gracia, Hong-Jun Gao, Haitao Yang* and Zhichuan J. Xu, Spin-polarized oxygen evolution reaction under magnetic field, Nature Communications, 12(2021), 2608.
  6. Yuqing Xing, Jianlei Shen, Hui Chen, Li Huang, Yuxiang Gao, Qi Zheng, Yu-Yang Zhang, Geng Li, Bin Hu, Guojian Qian, Lu Cao, Xianli Zhang, Peng Fan, Ruisong Ma, Qi Wang, Qiangwei Yin, Hechang Lei, Wei Ji, Shixuan Du, Haitao Yang, Wenhong Wang, Chengmin Shen, Xiao Lin, Enke Liu, Baogen Shen, Ziqiang Wang and Hong-Jun Gao, Localized spin-orbit polaron in magnetic Weyl semimetal Co3Sn2S2, Nature Communications, 11(2020), 5613.
  7. Li Liu, Liangmei Wu, Aiwei Wang, Hongtao Liu, Ruisong Ma, Kang Wu, Jiancui Chen, Zhang Zhou, Yuan Tian, H. T. Yang, Chengmin Shen, Lihong Bao, Zhihui Qin, Sokrates T. Pantelides, and Hong-Jun Gao, Ferroelectric-Gated InSe Photodetectors with High On/Off Ratios and Photoresponsivity, Nano Lett. 20, 6666 (2020)
  8. H. T. Liu,Y. Z. Xue, J. A. Shi, R. A. Guzman, P. P. Zhang, Z. Zhou, Y. G. He, C. Bian, L. M. Wu, R. S. Ma, J. C. Chen, J. H. Yan, H. T. Yang, C. M. Shen, W. Zhou, L. H. Bao, H.-J. Gao, Observation of the Kondo effect in multilayer single-crystalline VTe2 nanoplates”, Nano Lett. 19, 8572 (2019).
  9. 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.
  10. 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.
  11. 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.
  12. 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.
    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.
  13. 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.
  14. 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.
  15. 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.
  16. 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
  17. 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.
  18. 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.
    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.
  19. 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.
  20. 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,
    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.
  21. 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.
  22. Y. K. Su, J. N. Tang, H. T. Yang * and Z. H. Cheng, “Multifunctional multisegmented Co/CoPt3 heterostructure nanowires”, Nanoscale, 5 (2013), 9709.
  23. 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.
  24. 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.
  25. 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.
  26. 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.
  27. 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.
  28. 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.
  29. 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.
  30. 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.
  31. 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.
  32. 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.
  33. 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.
  34. 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.
  35. 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.
  36. 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.
  37. H. T. Hai, H. T. Yang, H. Kura, D. Hasegawa, Y. Ogata,M. Takahashi and T. Ogawa, J. Colloid Interface Sci., 346 (2010), 37.
    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.
  38. 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.   
  39. H. T. Yang *, T. Ogawa, D. Hasegawa, and T. Migaku, “Synthesis and magnetic properties of monodisperse magnetite nanocubes”, J. Appl. Phys., 103(2008), 07D526.
  40. 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.
  41. 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.
  42. 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.
  43. 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.
  44. 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.
  45. 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.
  46. 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.
  47. 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.
  48. 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.
  49. 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.
  50. 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.
  51. 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.
  52. 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.
  53. 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.
  54. 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.
  55. 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
  56. 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.
  57. 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. 
  58. H. T. Yang, C. M. Shen, and H. J. Gao,Solution-phase Synthesis of Metal Nanoparticles”, Physics, 32 (2003), 520.
  59. 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.
  60. 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.