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bob体育官网-bob体育最新版下载地址

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
教师个人主页:http://faculty.uestc.edu.cn/baifeiming
教师简介
教育背景

         2002.08-2006.06  美国弗吉尼亚理工大学,材料学专业,博士学位

         1999.09-2002.06  清华大学大学,材料科学与工程专业,硕士学位

         1994.09-1999.06  清华大学,材料科学与工程专业,学士学位

工作履历

         2015.09-2016.03  美国加州大学伯克利分校,高级研究学者

         2012.07-至今  bob体育最新版下载地址,教授

         2008.12-2012.06  bob体育最新版下载地址,副教授

         2006.08-2008.12  美国罗切斯特理工,博士后研究员

学术兼职

         2012.06 - 至今  Journal of Nanomaterials客座编委

         2006.04-至今  美国MRS会员

         2011.05-至今  IEEE会员

         2010.07-至今  中国材料研究学会会员

荣誉奖励

         2014年,四川省杰出青年学术技术带头人

         2014年,四川省学术技术带头人后备人选

         2013年,教育部高校自然科学二等奖

         2011年,bob体育最新版下载地址引进人才优秀奖

         2006年,美国Viginia Tech优秀博士论文提名

         2004年,美国Knobler Fellowship

         2002年,清华大学优秀硕士论文
科学研究

研究方向

1、铁电、磁电材料,界面磁电现象及磁电薄膜

在室温下同时具有强铁电性、铁磁性及强磁电耦合效应的多铁性材料;自组装纳米氧化物复合薄膜;近零功耗、电场控制的自旋电子器件;低禁带宽度、高载流子迁移率的铁电薄膜材料及其光伏效应

Room temperature single phase multiferroic materials with strong magnetoelectric coupling; Self-assembled nanocomposite oxides; Electrical-field tunable spintroinc devices with near zero power consumption; ferroelectric films with low band gap, high charge mobility for photovoltaic application.


   


2、集成高频磁电器件,片上微磁器件、片上功率器件

纳米磁芯膜,磁性薄膜的各向异性场调控,电场控制的可调频微波器件;基于磁性薄膜的片上电感、变压器和抗EMI器件;全集成电压调节器、滤波器、放大器

Nanogranular magnetic core; magnetic films with tunable anistropy field for E-field tuned microwave devices; on-chip micromagnetic devices (thin film inductor, transformer and anti-EMI devices); fully-integrated voltage regulator, filter and amplifier


inductor array    


3、无线无源地磁场传感器、磁成像技术

层状磁电复合材料中的声表面波传播现象;无线无源集成磁电声表面波磁场传感器,传感器阵列

Surface wave propagation in layered electromagnetic structure; Wireless integrated magnetoelectric surface wave resonator for weak magnetic field detection; magnetic sensor array.


在研项目

1、“基于层状电磁复合材料的磁声表面波磁敏传感器研究

国家自然科学基金面上项目,61271031、、2013/01-2016/12、75万元,项目负责人(1)。

2、“高频磁性纳米材料的电磁性能调控及其在磁性电子器件中的应用

国家重大基础研究973项目,2012CB933104、2012/01-2016/12、600万元、项目负责人(1)。

      3、“自组装纳米磁电复合薄膜的微波磁性研究”

四川省青年科技基金,2014JQ0010,2014/01-2016/12,50万元,项目负责人(1)。


研究条件

拥有多靶RF磁控溅射仪2台;脉冲激光沉积系统1台;磁电效应测试设备 1套;HP4284、4285阻抗测试仪;振动样品磁强计1台;宽频(100MHz-9GHz)磁谱测试系统1套;薄膜铁磁共振测试系统1套(配0-20G矢量网络分析仪);共享Radiant Technology铁电测试仪、英国Beda 高分辨XRD测试仪,日本精工扫描力显微镜。


 

SCI论文


1. D. D. Wen, H. W. Zhang, X. M. Yang, Q. Q. Lv and F. M. Bai*, “Electrical-field tuned magnetic anisotropy in the FeSiBC/PMN-PT heterostructures with different history of induced uniaxial anisotropy”, J. Alloys Comp., 690, 836-840 (2017)

2. T. Liu, J. Hou, F. M. Bai, H Chen, F Cao, Y Cao, H. H. He, J. Wang, N. Wang, G. Cao, "Correlation between In-Plain Substrate Strain and Electrocatalytic Activity of Strontium Ruthenate Thin Film in Dye-Sensitized Solar Cells", J. Mater. Chem A 4, 10794-10800 (2016)

3. L. Wang, Y. C. Wang, H. W. Zhang, Z. Y. Zhong, L. S. Wang, D. L. Peng, and F. M. Bai*, “Integrated on-chip solenoid inductors with nanogranular magnetic cores”, IEEE Trans. Magn. 52(7), 8400604 (2016)

4. X.L. Liu, L.S. Wang, Q. Luo, Q.S. Xie, Q.F. Zhang, X. Liu, F.M. Bai, D.L. Peng, "Magnetic properties of [FeCoSiN/SiNx]18 multilayer thin films for applications in GHz range", J. Alloys Comp., 680, 531-537 (2016)

5. Y. C. Wang, L. Wang, H. W. Zhang, Z. Y. Zhong, D. L. Peng, F. Ye, F. M. Bai*, "Investigation of FeCo-Ti-O nanogranular films with tunable permeability spectrum", J. Alloys Comp., 667, 229-234 (2016)

6. Y. C. Wang, H. W. Zhang, L. Wang, and F. M. Bai*, "The adjustable anisotropy field in FeCoTiO/SiO2/FeCoTiO trilayer films by oblique sputtering and stripe patterning", AIP Advances 6, 055912 (2016)

7. L. Huang, Q. Q. Lyu, D. D. Wen, Z. Y. Zhong, H. W. Zhang and F. M. Bai*, "Theoretical investigation of magnetoelectric surface acoustic wave characteristics of ZnO/Metglas layered composite", AIP Advances 6, 015103 (2016)

8. H. B. Ma, J. W. Zhang, H. Zhang, Q. Q. Lan, C. S. Guan, Q. Zhang, F. M. Bai, Y. Peng and X. X. Zhang, "Effects of interfacial transition layers on the electrical properties of individual Fe30Co61Cu9/Cu multilayer nanowires", J. Mater. Chem. C, 4, 259-265, 2016

9. Y. L. Liao, D. N. Zhang, Q. Wang, T. L. Wen, L. J. Jia, Z. Z. Zhong, F. M. Bai, L. H. Tang, W. Que and H. W. Zhang, "Open-top TiO2 nanotube arrays with enhanced photovoltaic and photochemical performances via a micromechanical cleavage approach", J. Mater. Chem A 3, 14279 (2015)

10. T Zhou, D Zhang, L Jia, F. M. Bai, L Jin, Y Liao, T Wen, C Liu, H Su, N Jia, Z. Zheng, V. G. Harris, H. W. Zhang, Z. Z. Zhong, "Effect of NiZn Ferrite Nanoparticles Upon the Structure, Magnetic, and Gyromagnetic Properties of Low-Temperature Processed LiZnTi Ferrites", J. Phys. Chem. C, 2015, 119, pp: 13207-13214

11. H. Zhang, X. Deng, J. W. Zhang, D. S. Xue, Y. Q. Huang, F. M. Bai, B. J. Inkson, Y. Peng, "Phase transformation of Sn-based nanowires under electron beam irradiation", J. Mater. Chem. C, 3, 5389-5397 (2015)

12. T. L. Wen, D. N. Zhang, Q. Y. Wen, H. W. Zhang, Y. L. Liao, Q. Li, Q. H. Yang, F. M. Bai and Z. Y. Zhong, “Magnetic nanoparticle assembly arrays prepared by hierarchical self-assembly on a patterned surface”, Nanoscale, 7, 4906 (2015)

13. T. C. Zhou, H. W. Zhang, L. J. Jia, Y. L. Liao, Z. Zhong, F M. Bai, et al. "Enhanced ferromagnetic properties of low temperature sintering LiZnTi ferrites with Li2O–B2O3–SiO2–CaO–Al2O3 glass addition", J. Alloys Comp., 620, 421-426 (2015)

14. G. L. Yu, H. W. Zhang, F. M. Bai, Y. X. Li, J. Li, "Theoretical investigation of magnetoelectric effect in multilayer magnetoelectric composites", Composite Structures 119 (2015) 738–748

15. J. W. Zhang, H. B. Ma, S. F. Zhang, H. Zhang, X. Deng, Q. Lan, D. S. Xue, F. M. Bai, N. J. Mellors and Y. Peng, "Nanoscale characterisation and magnetic properties of Co81Cu19/Cu multilayer nanowires", J. Mater. Chem. C, 3, 85-93 (2015)

16. D. Wen, H. Zhang, X. Hui, Y. Wang, Z. Zhong, and F. M. Bai*, “Large In-Plane Uniaxial Magnetic Anisotropy in the Ferromagnetic/Ferroelectric Heterostructures”, IEEE Trans. Magn. 50, 2801804 (2014)

17. L. C. Jin, D. N. Zhang, H. W. Zhang, X. L. Tang, F. M. Bai, Z. Z. Zhong, X. Fan, and J. Q. Xiao, "Spin valve effect of the interfacial spin accumulation in yttrium iron garnet/platinum bilayers", Appl. Phys. Lett. 105, 132411 (2014)

18. Q. Wang, H. W. Zhang, X. L. Tang, H. Fangohr, F. M. Bai and Z. Z. Zhong, "Dynamic control of spin wave spectra using spin-polarized currents", Appl. Phys. Lett. 105, 112405 (2014)

19. Y. C. Wang, H. W. Zhang, L. Wang, Z. Y. Zhong, and F. M. Bai*, “Nanogranular (FeCoTiO/SiO2)n Multilayered Films for Noise Suppressor”, IEEE Trans. Magn. 50, 2007504 (2014)

20. Q. Wang, H. W. Zhang, X. L. Tang, H. Su, F. M. Bai, Y. L. Jing, and Z. Z. Zhong, "Effects of symmetry reduction on magnon band gaps in two-dimensional magnonic crystals", J. Phys. D: Appl. Phys. 47 (2014) 065004

21. X. L. Hui, Y. C. Wang, D. D. Wen, Z. Y. Zhong, H. W. Zhang, F. Ye and F. M. Bai*, "Self-assembled 1-3D Pb(ZrTi)O3-NiFe2O4 magnetoelectric nanocomposite films with narrow FMR linewidth", Mater. Research. Express, 1 (2014) 025011

22. Y. C. Wang, H. W. Zhang, L. Wang, and F. M. Bai*, "Compositional dependence of magnetic and high frequency properties of nanogranular FeCo-TiO2 films", J. Appl. Phys. 115, 17A306 (2014).

23. H. Zhang, Y. J. Ma, Y. C. Wang, D. D. Wen, F. Ye and F. M. Bai*“Preparation of 1-3 Dimensional PZT-NFO Nanocomposite Films by Off-axis Magnetron Sputtering”J. Inorganic Mater. 29:371-376(2014)

24. H. Su, X. L. Tang, H. W. Zhang, Y. L. Jing, and F. M. Bai, "Low-Loss Magneto-Dielectric Materials: Approaches and Developments", J. Elec. Mater. 43, 299-307 (2014)

25. Y. Liao, H. Zhang, W. Que, Peng Zhong, F. M. Bai, et al. Activating the Single-Crystal TiO2 Nanoparticle Film with Exposed {001} Facets, ACS Appl. Mater. Interface, 5: 11022-11028 (2013)

26. Y. Liao, H. Zhang, Z. Zhong, L Jia, F. M. Bai, et al.Enhanced Visible-Photocatalytic Activity of Anodic TiO2 Nanotubes Film via Decoration with CuInSe2 Nanocrystals, ACS Appl. Mater. Interface, 5 (21) , 11022-11028 (2013)

27. Z. L. Zheng ; H. W. Zhang ; J.Q. Xiao; F. M. Bai, "Low Loss NiZn/Co2Z Composite Ferrite With Almost Equal Values of Permeability and Permittivity for Antenna Applications", IEEE Trans. Magn., 49: 4214-4217 (2013)

28. H. Su, X. L. Tang, H. W. Zhang, Y. L. Jing, F. M. Bai and Z. Z. Zhong, "Low-loss NiCuZn ferrite with matching permeability and permittivity by two-step sintering process", J. Appl. Phys. 113, 17B301 (2013)

29. Z. Y. Xu ; Z. W. Lan; K. Sun ; Z. Yu ; R. D. Guo ; F. M. Bai, "Effects of BaM Interfacial Layer on the c -Axis Orientation of BaM Thin Films Deposited on SiO2/Si Substrates", IEEE Trans. Magn., 49: 4226-4229 (2013)

30. D.D. Wen, F.M. Bai*, Y. C. Wang, Z. Y. Zhong, H. W. Zhang, “Tailoring of the soft magnetic property and uniaxial anisotropy of magnetostrictive films by interlayer”, J. Appl. Phys., 113: 17A309 (2013)

31. Y. C. Wang, H.W. Zhang, D. D. Wen, Z. Y. Zhong, F.M. Bai*, “Magnetic and high frequency properties of nanogranular CoFe-TiO2 films”, J. Appl. Phys., 113: 17A316 (2013)

32. Q. Wang, Z. Y. Zhong, L. C. Jin, X. L. Tang, F. M. Bai, and H. W. Zhang, "Large magnon band gaps created by introducing additional lattice scatterers", J. Appl. Phys., 113, 153905 (2013)

33. L. C Jin, H. W. Zhang, X. L. Tang, F.M. Bai, Z. Y. Zhong, “Effects of ruthenium seed layer on the microstructure and spin dynamics of thin permalloy films’, J. Appl. Phys., 113: 053902 (2013)

34. F. M. Bai*, G. Yu, Y. Wang, et al., “Dramatic reduction of FMR linewidth in epitaxial Pb(ZrTi)O3-NiFe2O4 nanocomposite films”, IEEE Trans. Magn. 49: 4299-4302 (2013)

35. F. M. Bai*, G. Yu, Y. C. Wang, L. C. Jin, H. Z. Zeng, X. L. Tang, Z. Z. Zhong, H. W. Zhang, "Strong exchange bias with the (110)-oriented BiFeO3 films", Appl. Phys. Letts. 101, 092401 (2012)

36. F. M. Bai*, L. Shi, H. Zhang, Z. Zhong, W. Wang and D. He, “Multiferroic properties of La-doped Bi2FeCrO6 prepared by high-pressure synthesis”, J. Appl. Phys. 111, 07C702 (2012)

37. Z. L. Zheng*, H. W. Zhang, J. Q. Xiao, L. J. Jia, and F. M. Bai, Introduction of NiZn-Ferrite Into Co?Z-Ferrite and Effects on the Magnetic and Dielectric Properties, IEEE Trans. Magn. 48, 3618 (2012)

38. G. D. Lu*, H. W. Zhang, J. Q. Xiao, X. L. Tang, Z. Y. Zhong, and F. M. Bai, High-Frequency Properties and Thickness-Dependent Damping Factor of FeCo–SiO2 Thin Films, IEEE Trans. Magn. 48, 3654 (2012)

39. H. Su*, H. W. Zhang, X. L. Tang, Z. Y. Zhong, and F. M. Bai, “Influences of High Calcination Temperature on Densification and Magnetic Properties of Low-Temperature-Fired NiCuZn Ferrites”, IEEE Tran. Magn., 47, 4328-4331, (2011)

40. X. L. Tang*, H. W. Zhang, H. Su, Z. Y. Zhong, and F. M. Bai, "Influence of Microstructure on the DC-Bias-Superposition Characteristics of NiZn Ferrites", IEEE Tran. Magn., 47, 4332-4335, (2011)

41. H. Zhang, Q. Yang and F. M. Bai, “Microwave/Millimeter-Wave Garnet Films”, IEEE Trans. Magn. 47, 295 (2011)

42. S. Lei and Feiming Bai*, Recent advance on room-temperature multiferroics with double-perovskite structure, J. Chin. Ceram. Soc. 39(3), p 550-558, 2011

43. F. M. Bai*, H. Zhang, J. Li and D. Viehland, “Magnetic and magnetoelectric properties of as-deposited and annealed BaTiO3-CoFe2O4 nanocomposite thin films”, J. Phys. D: Appl. Phys. 43, 285002 (2010)

44. L. Yan, F. M. Bai, J. Li, and D. Viehland, " Nano-structures in perovskite-ferrite two phase composite epitaxial thin films ", Phil. Mag. A, 90, 103-111 (2010)

45. Y. He, H. W. Zhang, Y. Y. Wang, W. W. Ling, C. H. Mu, F. M. Bai and P. Liu, "Electrical and magnetic properties of NiCuZn–CaCu3Ti4O12 composites doped with Bi2O3", J. Alloys Comp., 504, (2010):435-439

46. F. M. Bai*, H. Zhang, J. Li and D. Viehland, “Magnetic force microscopy investigation of the static magnetic domain structure and domain rotation in Fe-x at.%Ga alloys”, Appl. Phys. Letts. 95152511 (2009).

47. S. Mukherjee, F. M. Bai, D. MacMahon, C. Lee, S. K. Gupta and S. K. Kurinec, "Crystallization and grain growth behavior of CoFeB and MgO layers in multilayer magnetic tunnel junctions", J. Appl. Phys. 106, 033906 (2009)

48. A. Devasia, F. M. Bai, S. K. Gupta and S. Kurinec, "Analyzing Residual Stress in Bilayer Chalcogenide Ge2Se3/SnTe Films", Thin Solid Films, 517, 6516-6519, (2009)

49. S. Mukherjee, D. MacMahon, F. M. Bai, C. Lee, and S. K. Kurinec, "Study of boron diffusion in MgO in CoFeB/MgO film stacks using parallel electron energy loss spectroscopy", Appl. Phys. Letts., 94, 082100 (2009)

50. L. Yan, F. M. Bai, J. Li, and D. Viehland, "Nano-belt structure in perovskite-spinel composite thin films", J. Am. Ceram. Soc., 92, 17 (2009)

51. X. Tang, H. Zhang, H. Su, Y. Jing, Z. Zhong, F. M. Bai, S. Jian, "Effect of polarized current on the exchange bias in a current-in-plane spin valve", J. Appl. Phys. 105, 07D106 (2009)

52. W. Ling, H. Zhang, Y. Li, Y. Xie, Y. He, L. Peng, and F. M. Bai, "Electromagnetic properties of ferroelectric/ferromagnetic composite materials base on low temperature cofired ceramic technology", J. Appl. Phys. 105, 07D911 (2009)

Publications at Virginia Tech

53. H. Cao, F. Bai, J. Li, D. Viehland, T. A. Lograsso and P. M. Gehring, “Structural studies of decomposition in Fe–x at.%Ga alloys”, J. Alloys Compd., 465, (2008): 244-249

54. R. Islam, J. Jiang, F. Bai, D. Viehland and S. Priya, "Correlation between structural deformation and magnetoelectric response in PZT-NiFe1.9Mn0.1O4 particulate composite", Appl. Phys. Lett., 91, 162905 (2007)

55. F. Bai, J. Li, D. Viehland, A. Ross and T. Lograsso, “Magnetic force microscopy investigation of domain structures in Fe-x%Ga single crystals (12<x<25at%)”, J. Appl. Phys. 98, 023904 (2005)

56. F. Bai, J. Li, and D. Viehland, “Domain Engineered States over Various Length Scales in (001)-oriented Pb(Mg1/3Nb2/3)O3-x%PbTiO3 Crystals: Electrical History Dependence of Hierarchal Domains”, J. Appl. Phys., 97, 054103 (2005)

57. H. Cao, F. Bai, N. Wang, J. Li, D. Viehland, G. Xu and G. Shirane, “Intermediate ferroelectric orthorhombic and monoclinic MB phases in [110]- electric field cooled Pb(Mg1/3Nb2/3)O3- 30%PbTiO3 crystals”, Phys. Rev. B, 72, 064104 (2005)

58. F. Bai, J. Wang, A.P. Pyatakov, J. Li, N. Wang, L.E. Cross, M. Wuttig, A.K. Zvezdin, and D. Viehland, “Destruction of spin cycloid in (111)c-oriented BiFeO3 thin films by epitiaxial constraint”, Appl. Phys. Lett., 86, 032511 (2005)

59. S. Dong, J. Zhai, N. Wang, F. Bai, J. Li and D. Viehland, “Fe–Ga/Pb(Mg1/3Nb2/3)O3–PbTiO3 magnetoelectric laminate composites”, Appl. Phys. Lett. 87, 222504 (2005)

60. S. Dong, J. Zhai, F. Bai, J. Li and D. Viehland, “Pull-pull mode magnetostrictive/piezoelectric laminate composite with an enhanced magnetoelectric voltage coefficient”, Appl. Phys. Lett. 87, 062502 (2005)

61. S. Dong, J. Zhai, F. Bai, J. Li, D. Viehland and T. Lograsso, “Magnetostrictive and magnetoelectric behavior of Fe-Ga/Pb(Zr,Ti)O3 laminates”, J. Appl. Phys., 97, 103902 (2005)

62. H. Cao, F. Bai, Jiefang Li, D. Viehland, Guangyong Xu, G. Shirane, “Structural phase transformation and phase boundary/stability studies of field-cooled Pb(Mg1/3Nb2/3O3)– 32%PbTiO3 crystals”, J. Appl. Phys. 97, 094101 (2005)

63. F. Bai, J. Li, and D. Viehland, “Polarization Switching in (001)-oriented PMN-x%PT Crystals: Direct Observation of Heterogeneous Nucleation by Piezoreponse force Microscopy”, Appl. Phys. Lett. 85 (2004): 4457-4459

64. F. Bai, H. Zheng, H. Cao, L.E. Cross, R. Ramesh, Jiefang Li, and D. Viehland, “Epitaxially-induced high temperature (>900K) cubic-tetragonal structural phase transition in BaTiO3 thin films”, Appl. Phys. Lett. 85, (2004): 4019-4011

65. F. Bai, J.F. Li, and D. Viehland, “Domain hierarchy in annealed (001)-oriented Pb(Mg1/3Nb2/3)O3 -x%PbTiO3 single crystals”, Appl. Phys. Lett., 85, (2004): 2313-2315

66. F. Bai, N. Wang, J. Li, D. Viehland, P. M. Gehring, G. Xu and G. Shirane, “X-ray and Neutron Diffraction Investigations of the Structural Phase Transformational Sequence under Electric Field in PMN-0.3PT Crystal”, J. Appl. Phys., 96, (2004): 1620-1627

67. S. Dong, F. Bai, L. Yan. H Cao, J.F. Li, and D. Viehland, “Vacuum response and leak detection in piezoelectrically driven sound-resonance cavity”, Appl. Phys. Lett. 84, (2004): 4144-4146

68. S. Dong, H. Cao, F. Bai, Li Yan, J. F. Li, and D. Viehland, “Comformal sensor skin approach to the safety-monitoring of H2 fuel tanks”, Appl. Phys. Lett., 84, (2004): 4153-4154

69. H. Zheng, J. Wang, S. E. Lofland, Z. Ma, L. Mohaddes-Ardabili, T. Zhao, L. Salamanaca-Riba, S. R. Shinde, S. B. Ogle, F. Bai, D. Viehland, Y. Jia, D. G. Schlom, M. Wuttig, A. Royburd and R. Ramesh, “Multiferroic BaTiO3-CoFe2O4 Nanostructures”, Science, 303 (2004): 661-663

70. S. Dong, F. Bai, J. Li, and D. Viehland, “An acoustic position sensor”, Review of Scientific Instruments, 74 (2003): 4863-4868

71. S. Dong, F. Bai, J. Li and D. Viehland, “A piezoelectric-sound-resonance cavity for hydrogen gas detection”, IEEE T ULTRASON FERR 50, (2003): 1105-1113

72. S. Dong, F. Bai, J. Li and D. Viehland, “Sound-resonance hydrogen sensor”, Appl. Phys. Lett. 82 (25): (2003): 4590-4592

73. S. Dong, F. Bai, J. Li and D. Viehland, “Resonance acoustic field position sensor”, Appl. Phys. Lett. 82 (23): (2003): 4181-4183

Publications at Tsinghua University

74. X. Chen, Z. Jiang, L. Zhang, C. Yang, F. M. Bai, X. Wang, H. Chen and J. Zhu, “Nanoscale structure and magnetic properties of Nd-Fe-Nb-B-C permanent magnets”, IEEE Tran. Magn. 39 (2003): 2194-2197

75. Z. Jiang, X. Chen, F. M. Bai*, C. Ma and J. Zhu, “Texture of nanocomposite Nd2Fe14B/alpha-Fe melt spun ribbons”, J. Rare Earths 22, (2004): 227-231

76. F. M. Bai, Z. Jiang, X. Chen and J. Zhu, “Effects of Alloying Elements on Magnetic Properties of Nanocomposite Nd2Fe14B/α-Fe Magnets”, J. Rare Earth, 21, (2003): 351-356

77. X. Chen, Z. Jiang, L. Zhang, Y. Chen, F. M. Bai, H. Chen, J. Zhu, “Study on the magnetic properties and microstructure of Nd-Fe-B nanocomposite permanent magnets”, Materials Science Forum 426-4 (2003): 2381-2386

78. Z. Jiang, X. Chen, Y. Chen, L. Zhang, F. M. Bai, J.Zhu, “The anisotropy of nanocomposite Nd9Fe84.5Nb0.5B6 melt spun ribbons”, Materials Science Forum 423-5 (2003): 59-62

79. X. Chen, Z. Jiang, L. Zhang, C. Yang, F. M. Bai L. Han, H. Chen and J. Zhu, "Study on the microstructure and magnetic properties of Nd2Fe14(BC)/a-Fe nanocomposite", J. Magn. Magn. Maters. 247, 26 (2002)

80. F. M. Bai*, Z. Jiang, X. Chen and J. Zhu, “The Combined Effects of Ga, Nb, Zr, Hf, Pr on the Magnetic Properties and Microstructure of (Nd, Pr)9(Fe, Ga, Nb, Zr, Hf)86.5B4.5 nanocomposite ribbons”, J. Alloys Comp., 343 (2002): 60-65


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