首页师资队伍师资队伍X
徐 锋 Feng Xu

个人简介

 徐锋,教授、博士生导师、理学博士,现任材料科学与工程学院副院长,江苏省杰青获得者、江苏省青蓝工程中青年学术带头人、江苏省高等学校优秀共产党员。

磁性是物质的基本属性,磁性合金是金属功能材料的重要大类。金属磁性功能材料在电机、磁记录、磁制冷等众多领域应用广泛,是我国国民经济的特色行业。徐锋教授带领的课题组,正是从事金属磁性功能材料领域的相关研究,涉及软磁薄膜体系中高频自旋动力学及其在微波领域的应用;具有巨磁致伸缩效应和巨磁制冷效应的磁结构相变合金;非晶软磁与稀土基块体永磁合金;磁性半金属以及自旋输运等。既立足于基础研究前沿,又在国民经济领域有广阔应用前景。

详情请见课题组主页:http://www.maglab.icoc.cc/

教育背景

  • 1996.9-2000.6:南京大学物理学系,物理学专业本科生
  • 2000.9-2005.6:南京大学物理学系,凝聚态物理学博士研究生
  • 其间,2003.4-2004.1:丹麦技术大学物理系,交换研究生

工作履历

  • 2005.6-今:任南京理工大学材料科学与工程系/材料科学与工程学院教师
  • 其间,2006.7-2007.10:台湾清华大学材料科学工程系,博士后研究员
  • 2007.12-2009.2:新加坡国立大学物理系超导与磁性材料研究中心,研究员
  • 2009.2-2009.12:新加坡国立大学淡马锡实验室电磁材料研究部,研究科学家
  • 2005.6评定为讲师;2010.4评定为副研究员;2011.5评定为博士生导师;20154月评定为教授。

学术/社会兼职


  • IEEE协会磁学协会南京分会主席
  • 中国电子学会磁学分会高级会员
  • 江苏省颗粒学会常务理事
  • 南京市硅酸盐协会理事
  • 南京理工大学青年学者协会常务理事等。

研究领域/概况

磁性是物质的基本属性,磁性合金是金属功能材料的重要大类。金属磁性功能材料在电机、磁记录、磁制冷等众多领域应用广泛,是我国国民经济的特色行业。徐锋教授带领的课题组,正是从事金属磁性功能材料领域的相关研究,涉及软磁薄膜体系中高频自旋动力学及其在微波领域的应用;具有巨磁致伸缩效应和巨磁制冷效应的磁结构相变合金;非晶软磁与稀土基块体永磁合金;磁性半金属以及自旋输运等。既立足于基础研究前沿,又在国民经济领域有广阔应用前景。

主持的科研项目包括:

  1. 国家自然科学基金(51571121“垂直磁各向异性MgO-CoFeB相关薄膜的阻尼调控,2016-2019
  2. 国家自然科学基金(51271093)“基于稀释反铁磁增强交换偏置效应调控软磁金属薄膜微波特性的研究”,2013-2016
  3. 国家自然科学基金(10904071)“基于薄膜间磁电耦合效应调控软磁金属薄膜微波特性的研究”,2010-2012
  4. 973子课题
  5. 江苏省杰出青年基金(BK20140035)“磁性合金的纳米结构与性能”,2014-2017
  6. 江苏省自然科学基金(SBK200922570)“薄膜间磁电耦合对软磁金属薄膜微波特性的调控”,2009-2012
  7. 江苏省产学研前瞻性联合研究项目BY2014004-01)“永磁电机用低镝耐热稀土永磁材料”,2014-2017
  8. 中央高校基础科研重大研究项目(30920140111010)基于稀释反铁磁增强交换偏置效应调控软磁金属薄膜微波磁性的研究,2014-2015
  9. 中央高校基础科研重大研究项目“低重稀土耐热稀土永磁材料”,2011-2012
  10. 南京理工大学卓越计划紫金之星一类培养计划项目“软磁/压电多铁异质结微波磁性的电场可调性研究”,2011-2013
  11. 南京大学固体微结构国家实验室开放课题“基于磁电耦合调控软磁金属薄膜微波特性的研究”,2011-2012
  12. 南京理工大学科研发展基金“内生塑性晶体相/Zr基块体金属玻璃形成和相变过程的热力学与动力学研究”,2007-2008

参与的科研项目包括: 

  1. 2010年度江苏省重大科技成果转化项目“风力发电机用高性能稀土永磁体研发及其产业化”,2010-2012
  2. 973重大研究计划子课题“高温TiAl合金冷坩埚定向凝固新技术基础”,2011-2015
  3. 国家国际合作专项“大型XXX关键技术合作研究”,2011-2015
  4. 国家自然科学基金(11079022)“同步辐射技术研究微结构对新型磁致伸缩材料Fe-Ga合金性能的影响”,2011-2013
  5. 南京理工大学自主科研专项重大研究计划“2010ZDJH10”子课题负责人,2010-2012
  6. 横向课题“高温耐腐蚀稀土永磁材料”,2006-2010
  7. 国家自然科学基金(10504010)“高自旋极化率半金属材料研究”,2006-2008

奖励与荣誉

  1. 2010年江苏省科学技术奖一等奖(排名第2
  2. 2012年度教育部技术发明奖一等奖(排名第2
  3. 获第十六届中国专利优秀奖(第一发明人,全校仅1项)
  4. 2014年度中国产学研合作创新成果奖(排名第2
  5. 2014年度江苏省杰出青年基金资助(全校3人)
  6. 被评为2014年度江苏省高校优秀共产党员(全校2人)
  7. 入选江苏省青蓝工程中青年学术带头人
  8. 被评为2011-2012年度南京理工大学优秀共产党员标兵(全校3人)
  9. 2014年度南京理工大学五四奖章(全校唯一教师)
  10. 2012年度南京理工大学青年教师进步奖
  11. 入选2011年度南京理工大学“卓越计划”“紫金之星”一类培养计划
  12. 2010年、2014年先后两次被评为南京理工大学科技工作先进个人
  13. 2015年度,教育实验学院优秀科研课题指导老师

学术成果

近年来,面向微波通讯、新能源动力电机等新技术领域对磁性合金性能的更高需求,围绕纳米显微结构与磁结构的耦合关联以及对性能的影响开展基础前沿研究,研究了纳米晶微观结构、层间耦合结构、纳米晶界改性等显微结构对于磁性合金性能的影响规律,系统研究了磁交换各向异性与交换偏置效应、磁应力各向异性与应力分布及其调控手段对于磁共振行为及其阻尼机制的影响规律。目前,正在开展的研究进一步拓展到交换偏置体系、磁结构相变合金及其效应等研究领域。

 

已发表论文如下:

  1.  J. Liu, X. P. Fei, Y. Y. Gong, F. Xu*, “Phase transition and magnetocaloric properties of Ni50Mn35-xIn15Cux bulk alloys and ribbons”, IEEE Transactions on Magnetics, 2015, 51(11), 2503004.
  2.  F. Xu*, Z. Xu, Y. Yin, “Tuning of the microwave magnetization dynamics in Dy-doped Fe65Co35-based thin films”, IEEE Transactions on Magnetics, 2015, 51(11), 2800904.
  3. Z. Xu, F. Xu*, “Magnetization reversal mechanism in notched elliptic Co rings”, IEEE Transactions on Magnetics, 2015, 51(11), 7101004.
  4. X. Fei, W. Li, J. Liu, F. Xu*, G. Tang, W. Tan, S. Li, “Phase Transition of Ball-Milled Ni50-xMn37In13Cox (x=0,5) Alloy Powders”, Materials Science Forum, 809-810 (2015) 377-383.
  5. Z. Xu, Y. Yin, F. Xu*, Q. Y. Xu, D. H. Wang, S. D. Li, Tuning of the microwave magnetization dynamics in CoZr-based thin films by Nd-doping”, Journal of Applied Physics, 2015 (117) 17A335.
  6. J. Liu, Z. Q. Liao, F. Xu*, W. S. Tan, “Effect of atomic order on the phase transitions of melt-spun Ni50Mn35In15 ribbons”, PHYSICA STATUS SOLIDI B-BASIC SOLID STATE PHYSICS, 2015, (252), 1350-1354.
  7. F. Xu*, J. Wei, W. Tan, S. Li, “Magnetization reversal in asymmetric Co rings studied by micromagnetic simulation”, Journal of Applied Physics, 2014 (115) 17D126.
  8. H. Wang, J. Zhang, Q. Jia, F. Xu, W. Tan, D. Huo, and J. Gao, “Three-dimensional strain state and spacer thickness-dependent properties of epitaxial Pr0.7Sr0.3MnO3/La0.5Ca0.5MnO3/Pr0.7Sr0.3MnO3 trilayer structure”, Journal of Applied Physics, 2014 (115) 233911.
  9. G. Tang, W. Yang, F. Xu, Y. He, “Synthesis and thermoelectric properties of In and Pr double-filled skutterudites InxPryCo4Sb12”, Journal of Electronic Materials, 2014 (43) 435-438.
  10. L. L. Zhang, Q. J. Huang, Z. Q. Liao, F. Xu*, G. Chen, S. D. Li, “Glass-forming ability and thermal stability of Gd55-xNdxCo20Al25 metallic glass”, Key Engineering Materials, 2013 (538) 270-273.
  11. Q. J. Huang, W. J. Yan, Z. Q. Liao, F. Xu*, G. Chen, S. D. Li, “Influence of hot-pressing on Nd-Fe-B permanent magnets”, Key Engineering Materials, 2013 (538) 223-236.
  12. Z. Q. Liao, W. J. Yan, Q. J. Huang, F. Xu*, G. Chen, S. D. Li, “Influence of cladless hot isostatic pressing on magnetic properties and corrosion resistance of sintered NdFeB magnets”, Key Engineering Materials, 2013 (538) 211-214.
  13. S. Li, M. Liu, J. Lou, X. Xing, J. Wu, Y. Hu, X. Cai, F. Xu, N. X. Sun, J. G. Duh, “Microwave frequency performance and high magnetic anisotropy of nanocrystalline Fe70Co30-B Films prepared by composition gradient sputtering”, Journal of Nanoscience and Nanotechnology, 2013 (13) 1091-1094.
  14. S. Li, M. Liu, J. Lou, X. Xing, J. Qiu, J. Lin, Z. Cai, F. Xu, N. X. Sun, J. G. Duh, “Tunable microwave frequency performance of nanocomposite Co2MnSi/PZN-PT magnetoelectric coupling structure”, Journal of Nanoscience and Nanotechnology, 2013 (13) 1182-1185.
  15. G. D. Tang, Y. He, F. Xu, Q. M. Zhang, “Experimental evidence for Jahn-Teller transition in a Fe(II)Fe(III) bimetallic oxalate”, Acta Physica Polonica B, 2013 (123) 118-120.
  16. G. D. Tang, D. W. Zhang, G. Chen, F. Xu, Z. H. Wang, “High temperature thermoelectric and magnetic properties of InxNdyCo4Sb12 skutterudites”, Physica B, 2013 (408) 79-82.
  17. G. D. Tang, F. Xu, D. W. Zhang, Z. H. Wang, “Improving the spin entropy by suppressing Co4+ concentration in thermoelectric Ca3Co4O9+d”, Ceramics International, 2013 (39) 1341-1344.
  18. G. Tang, F. Xu, Y. He, L. Wang, L. Qiu, Z. Wang, “Evidence for giant spin entropy contribution in thermoelectric Ca3Co4O9+d”, Physica Status Solidi (b), 2013 (250) 1327-1330.
  19. F. Xu*, Q. J. Huang, Z. Q. Liao, S. D. Li, C. K. Ong, “Tuning of magnetization dynamics in sputtered CoFeB thin film by gas pressure”, Journal of Applied Physics, 2012 (111) 07A304.
  20. Q. J. Huang, F. Xu*, L. L. Zhang, Z. Q. Liao, G. Chen, and S. D. Li, “Magnetocaloric effect of Gd65Co20Al25 metallic glass”, IEEE Transactions on Magnetics, 2012 (48) 4003-4005.
  21. S. D. Li, M. Liu, J. Lou, S. Beguhn, J. P. Wu, J. Qiu, J. H. Lin, Z. Y. Cai, Y. Hu, F. XuJ. G. Duh, N. X. Sun, “E-field tuning microwave frequency performance of Co2FeSi/PZN-PT magnetoelectric coupling composites”, Journal of Applied Physics, 2012 (111) 07C705.
  22. S. D. Li, L. L. Wang, J. Xu, Z. Wang, M. Liu, J. Lou, S. Beguhn, T. X. Nan, F. Xu, N. X. Sun, and J.-G. Duh, “Microwave frequency performance and high magnetic anisotropy of Fe70Co30-B films prepared by a modified composition gradient sputtering”, IEEE Transactions on Magnetics, 2012 (48) 4313-4316.
  23. S. D. Li, Z. P. Lin, Z. Wang, J. Xu, L. L. Wang, J. H. Lin, Y. Hu, F. Xu, T. X. Nan, N. X. Sun, and J.-G. Duh, “Large field-induced magnetocaloric effect in Ni43Mn46-xVxSn11 Heusler alloys”, IEEE Transactions on Magnetics, 2012 (48) 3985-3988.
  24. J. L. Cheng, G. Chen, H. W. Xu, F. Xu, Y. L. Du, “Microstructural evolution and mechanical properties of Zr-Cu-Ni-Al bulk metallic glasses by the Bridgman solidification”, Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 2012 (43A) 2620-2624.
  25. X. L. Zhang, F. Xu, G. Chen, “The effect of Dy substitution on the glass-forming ability and crystallization behavior of Mg65Cu10Ni10Y10Zn5 metallic glass”, Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 2012 (43) 2637-2641.
  26. Z. M. Wang, Q. Y. Xu, F. Xu, H. Zhang, Q. Zhao, “Room temperature giant hall effect in (Ni61Fe39)x(Al2O3)1-x percolating nanogranular films”, Journal of Superconductivity and Novel Magnetism, 2012 (25) 137-140.
  27. G. Tang, D. Zhang, G. Chen, F. Xu, Z. Wang, “Thermoelectric properties in double-filled skutterudites InxNdyCo4Sb12”, Solid State Communications, 2012 (152) 2193-2196.
  28. H. O. Wang, P. Dai, H. Liu, W. S. Tan, F. Xu, X. S. Wu, Q. J. Jia, G. J. Hu, J. Gao, “Magnetic and transport properties of Pr0.7Sr0.3MnO3/La0.5Ca0.5MnO3/ Pr0.7Sr0.3MnO3 trilayers”, International Journal of Modern Physics B, 2012 (26) 1250132.
  29.  Y. Li, X. Cheng, F. Xu, Y. Du, G. Chen, “Phase-field simulation of interdiffusion and microstructure of CuNi diffusion couples”, Journal of Computational and Theoretical Nanoscience, 2012 (9) 1500-1504.
  30. F. Xu*, Z. Q. Liao, Q. J. Huang, C. K. Ong, S. D. Li, “Influence of thickness on magnetic properties and microwave characteristics of NiFe/IrMn/NiFe trilayers”, IEEE Transactions on Magnetics, 2011 (47) 3486-3489.
  31. F. Xu*, Z. Q. Liao, Q. J. Huang, C. K. Ong, S. D. Li, “Influence of sputtering gas pressure on high-frequency soft magnetic properties of FeCoN thin film”, IEEE Transactions on Magnetics, 2011 (47) 3921-3923.
  32. F. Xu*, Z. Q. Liao, Q. J. Huang, C. K. Ong, S. D. Li, “Influence of interlayer thickness on high-frequency magnetic properties of FeCoSiN/AlO/FeCoSiN trilayers”, IEEE Transactions on Magnetics, 2011 (47) 3100-3103.
  33. F. Xu*, Q. Y. Xie, N. N. Phuoc, S. D. Li, C. K. Ong, “Influences of sputtering gas pressure and gas flow rate on microwave characteristics of FeCoAlO thin films”, Thin Solid Films, 2011 (519) 8292-8295.
  34. F. Xu*, S. D. Li, C. K. Ong, “Extrinsic damping contribution in soft magnetic thin films detected by permeability spectra”, Journal of Applied Physics, 2011 (109) 07D322.
  35. F. Xu*, P. W. Huang, J. H. Huang, W. N. Lee, T. S. Chin, H. C. Ku, S. D. Li, “Morphology and magnetic properties of InMnAs nanodots and nanowires with ultrahigh Mn concentrations”, Journal of Applied Physics, 2011 (109) 07C106.
  36. F. Xu*, P. W. Huang, J. H. Huang, R. T. Huang, W. N. Lee, T. S. Chin, Y. W. Du, “(In, Mn)As nanowires with ultrahigh Mn concentration: Growth, morphology and magnetic anisotropy”, Solid State Communications, 2011 (151) 169-172.
  37. S. D. Li, F. Xu, M. Liu, Y. Hu, J. P. Wu, X. L. Cai, J. Qiu, J. H. Lin, J.-G. Duh, “Effect of the thickness of Cr interlayer on the high-frequency characteristics of FeCoTa/Cr/FeCoTa multilayers”, Advanced Materials Research, 2011 (287-290) 1356-1359.
  38. Y. S. Li, X. L. Cheng, F. Xu, Y. L. Du, “Interdiffusion flux and interface movement in metallic multilayers”, Chinese Physics Letters, 2011 (28) 106601.
  39. Y. S. Li, X. L. Cheng, F. Xu, Y. L. Du, G. Chen, “Stress induced precipitate microstructure in anisotropic alloys”, Materials Letters, 2011 (65) 3134-3136.
  40. S. D. Li, M. Liu, F. Xu, Z. J. Tian, J. P. Wu, Y. Hu, X. L. Cai, J.-G. Duh, N.X. Sun, “Soft magnetism and microwave magnetic properties of Fe-Co-Hf films deposited by composition gradient sputtering”, Journal of Applied Physics, 2011 (109) 07A315.
  41. P. W. Huang, J. H. Huang, C. H. Yen, C. Y. Cheng, F. Xu, “Coexistence of exchange bias and magnetization pinning in the MnOx/GaMnAs system”, Journal of Physics-Condensed Matter, 2011 (23) 415801.
  42. S. D. Li, M. Liu, J. Lou, X. Xing, Z. J. Su, Z. Y. Zhou, F. Xu, J.-G. Duh, N. X. Sun, “High in-plane magnetic anisotropy and microwave frequency performance of soft magnetic (Fe50Co50)1-x(Al2O3)x films prepared by modified composition gradient sputtering”, IEEE Transactions on Magnetics, 2011 (47) 3935-3938.
  43. Z. P. Lin, S. D. Li, M. Liu, S.-Y. Tsai, J.-G. Duh, M. M. Liu, F. Xu, “The magnetic entropy change in La0.8Ce0.2Fe11.4Si1.6Bx compounds prepared by copper mould casting”, Journal of Magnetism and Magnetic Materials, 2011 (323) 1741-1744.
  44. F. Xu*, X. Chen, N.N. Phuoc, X.Y. Zhang, Y.G. Ma, C.K. Ong, “Ultrawide frequency linewidth of the permeability spectra of FeCoN thin film sputtered on the flexible substrate”, Journal of Magnetism and Magnetic Materials, 2010 (322) 3262-3265.
  45. F. Xu*, P. W. Huang, J. H. Huang, W. N. Lee, T. S. Chin, H. C. Ku, Y. W. Du, “Self-assembly and magnetic properties of MnAs nanowires on GaAs(001) substrate”, Journal of Applied Physics, 2010 (107) 063909.
  46. S. L. Lim, F. Xu, N. N. Phuoc, C. K. Ong, “Length dependence of coercivity in CoFe2 nanowire arrays with high aspect ratios”, Journal of Alloys and Compounds, 2010 (505) 609-612.
  47. N. N. Phuoc, L. T. Hung, F. Xu, C. K. Ong, “Analysis of dynamic magnetics and high effective permeability of exchange-biased multilayers fabricated onto ultrathin flexible substrates”, Journal of Applied Physics, 2010 (108) 023909.
  48. J. L. Chen,G. Chen,  F. Xu, Y. L. Du, Y. S. Li, and C. T. Liu, “Correlation of the microstructure and mechanical properties of Zr-based in-situ bulk metallic glass matrix composites”, Intermetallics, 2010 (18) 2425-2430.
  49. Y. L. Du, W. Li, Y. H. Deng, F. Xu, “Effects of gaseous hydrogenation on crystallization behavior of melt-spun Mg63Pr15Ni22 amorphous ribbons”, Journal of Thermal Analysis and Calorimetry, 2010 (99) 191-195.
  50. F. Xu*, N. N. Phuoc, X. Y. Zhang, Y. G. Ma, C. K. Ong, “High-frequency permeability spectra of FeCoSiN/Al2O3 laminated films: Tuning of damping by magnetic couplings dependent on the thickness of each ferromagnetic layer”, Journal of Applied Physics, 2009 (105) 043902.
  51. F. Xu*, X. Y. Zhang, Y. G. Ma, N. N. Phuoc, X. Chen, C. K. Ong, “Influence of Cu underlayer on the high-frequency magnetic characteristics of as-sputtered FeCoSiN granular thin films”, Journal of Physics D: Applied Physics, 2009 (42) 015002.
  52. F. Xu*, P. W. Huang, J. H. Huang, W. N. Lee, T. S. Chin, H.C. Ku, “GaMnAs with high Mn composition grown in Stranski-Krastanov mode”, Materials Letters, 2009 (63) 337-339.
  53. N. N. Phuoc, F. Xu, C. K. Ong, “Ultrawideband microwave noise filter: Hybrid antiferromagnet/ferromagnet exchange-coupled multilayers”, Applied Physics Letters, 2009 (94) 092505.
  54. N. N. Phuoc, F. Xu, Y. G. Ma, C. K. Ong, “Permalloy-FeMn exchange-biased multilayers grown on flexible substrates for microwave applications”, Journal of Magnetism and Magnetic Materials, 2009 (321) 2685-2690.
  55. N. N. Phuoc, F. Xu, C. K. Ong, “Tuning magnetization dynamic properties of Fe-SiO2 multilayers by oblique deposition”, Journal of Applied Physics, 2009 (105) 113926.
  56. L. X. Phua, F. Xu, Y. G. Ma, C. K. Ong, “Structure and magnetic characterizations of cobalt ferrite films prepared by spray pyrolysis”, Thin Solid Films, 2009 (519) 5858-5861.
  57. Z. M. Wang, F. Xu, H. Zhang, Q. Y. Xu, Q. Zhao, P. Lievens, “Giant Hall effect in (GaAs)Fe granular films”, Physics Letters A, 2009 (373) 3495-3497.
  58. X. Chen, Y. G. Ma, F. Xu, P. Wang, C. K. Ong, “A broadband permeability measurement of FeTaN lamination stack by shorted microstrip line method”, Journal of Applied Physics, 2009 (105) 013904.
  59. X. Y. Zhang, X. C. Wang, F. Xu and C. K. Ong, “High frequency dielectric properties distribution of BiFeO3 thin film using near-field microwave microscopy”, Review of Scientific Instruments, 2009 (11) 114701.
  60. X. Y. Zhang, P. Wang, F. Xu and C. K. Ong, “Tunable patterned ferroelectric parallel-plate varactors for matching network”, Solid State Electronics, 2009 (53) 993-997.
  61. X. Y. Zhang, Q. Song, F. Xu, C. K. Ong, “Investigation of dielectric properties in BiFeO3 thin film up to 10 GHz with parallel-plate and coplanar interdigital electrodes”, Applied Physics Letters, 2009 (94) 022907.
  62. X. Y. Zhang, Q. Song, F. Xu, S. Sheng, P. Wang, C. K. Ong, “Dielectric dispersion of BaxSr1−xTiO3 thin film with parallel-plate and coplanar interdigital electrodes”, Journal of Physics D: Applied Physics, 2009 (42) 065411.
  63. X. Y. Zhang, P. Wang, S. Sheng, Y. G. Ma, F. Xu, C. K. Ong, “A novel structure for dc bias on varactors in composite right/left-handed transmission lines phase shifter using Ba0.25Sr0.75TiO3 thin film”, Journal of Physics D: Applied Physics, 2009 (42) 175103.
  64. F. Xu*, N. N. Phuoc, X. Y. Zhang, Y. G. Ma, X. Chen, C. K. Ong, “Tuning of the magnetization dynamics in as-sputtered FeCoSiN thin films by various sputtering gas pressures”, Journal of Applied Physics, 2008 (104) 093903.
  65. F. Xu*, X. Chen, Y. G. Ma, N. N. Phuoc, X. Y. Zhang, C. K. Ong, “Influence of Si concentration on the magnetization dynamics in as-sputtered FeCoSiN thin films at high frequencies”, Journal of Applied Physics, 2008 (104) 083915.
  66. F. Xu*, Z. M. Wang, G. Chen, J. Z. Jiang, Y. W. Du, “Influence of low-temperature annealing on magnetic properties of (Nd0.625Ni0.375)85Al15 metallic glass”, Journal of Alloys and Compounds, 2008 (463) 226-229.
  67. F. Xu*, Z. M. Wang, Z. R. Yuan, G. Chen, J. Z. Jiang, “Glass formation ability and isothermal crystallization of melt-spun NdNiCuAl ribbons”, Journal of Alloys and Compounds, 2008 (458) 261-264.
  68. N. N. Phuoc, S. L. Lim, F. Xu, Y. G. Ma, C. K. Ong, “Enhancement of exchange bias and ferromagnetic resonance frequency by using multilayer antidot arrays”, Journal of Applied Physics, 2008 (104) 093708.
  69. X. Y. Zhang, P. Wang, S. Sheng, F. Xu, C. K. Ong, “Ferroelectric BaxSr1-xTiO3 thin-film varactors with parallel-plate and interdigital electrodes for microwave applications”, Journal of Applied Physics, 2008 (104) 124110.
  70. W. N. Lee, J. H. Huang, P. W. Huang, Y. F. Chen, F. Xu, T. S. Chin, C. T. Kuo, “Effect of substrate orientation on magnetic properties of (Ga,Mn)As”, Journal of Applied Physics, 2008 (103) 07B509.
  71. F. Xu*, Y. L. Du, P. Gao, Z. D. Han, G. Chen, “Influence of quenching rate on the crystallization behaviors of Mg63Ni22Pr15 metallic glass”, Materials Letters, 2007 (61) 4875-4878.
  72. F. Xu*, Y. L. Du, P. Gao, Z. D. Han, G. Chen, S. Q. Wang, J. Z. Jiang, “Crystallization of melt-spun Mg63Ni22Pr15 amorphous alloy ribbon”, Journal of Alloys and Compounds, 2007 (441) 76-80.
  73. F. Xu*, X. L. Wu, S. D. Li, K. Peng, Y. W. Du, G. Chen, “The influence of low-temperature nitridation on the low-frequency magnetization of Fe82Nb7B10Cu1 nanocrystalline alloy ribbons”, Transactions of Nonferrous Metals Society of China, 2006 (16) S211-S213.
  74. F. Xu*, X. S. Wu, Y. W. Du, C. Cui, G. Chen, “Structure and magnetic properties of melt-spun (Nd0.625Ni0.375)85Al15 ribbons”, Journal of Applied Physics, 2006 (99) 08B524.
  75. Z. M. Wang, F. Xu, Y. L. Du, J. N. Zhu, H. Zhang, “Effect of average A-site cation radius on complex permeability of perovskite manganite La0.65Nd0.05(Sr, Ba)(0.3)MnO3”, Journal of Magnetism and Magnetic Materials, 2006 (307) 205-208.
  76. Y. L. Du, Y. H. Deng, F. Xu, G. Chen, G. L. Chen, Q. Zhang, “Gaseous hydrogenation and its effect on thermal stability of Mg63Ni22Pr15 metallic glass”, Chinese Physics Letters, 2006 (23) 3320-3322.
  77. S. D. Li, M. M. Liu, Z. G. Huang, F. Xu, W. Q. Zou, F. M. Zhang, Y. W. Du, “CoMnSb: A magnetocaloric material with a large low-field magnetic entropy change at intermediate temperature”, Journal of Applied Physics, 2006 (99) 063901.
  78. K. Peng, L. P. Zhou, D. Fu, F. Xu, A. P. Hu, “Evaluation of crystallization kinetics of Fe85Zr3.5Nb3.5B7Cu amorphous alloy by non-isothermal analysis”, Evaluation, 2006 (2) 6.
  79. F. Xu*, J. Z. Jiang, Q. P. Cao, Y. W. Du, “Isothermal crystallization kinetics analysis of melt-spun Pd42.5Cu30Ni7.5P20 amorphous ribbons”, Journal of Alloys and Compounds, 2005 (392) 173-176.
  80. X. Y. Mao, F. Xu, J. C. Tang, W. L. Gao, S. D. Li, Y. W. Du, “Effects of Co-doping on the crystallization and magnetic properties of Cu-free nanocrystalline Fe-Nb-B alloys”, Journal of Magnetism and Magnetic Materials, 2005 (288) 106-110.
  81. W. Qin, F. Xu, Y. J. Wu, W. L. Gao, J. C. Tang, Y. W. Du, Y. F. Zhang, “Permeability-frequency spectra of nanoperm alloys at different temperatures”, Physica Status Solidi A-Applied Research, 2005 (202) 476-480.
  82. X. Y. Mao, Z. D. Han, F. Xu, W. L. Gao, B. X. Gu, Y. W. Du, “The effect of thermal treatment on the magnetic properties of Ge-doped FeNbB alloys”, Applied Physics A-Materials Science & Processing, 2005 (81) 839-842.
  83. K. Peng, Y. H. Tang, L. P. Zhou, J. C. Tang, F. Xu, Y. W. Du, “Influence of corrosion on the magnetic properties of amorphous and nanocrystalline FeZrNbBCu alloy”, Physica B-Condensed Matter, 2005 (366) 110-115.
  84. K. Peng, F. S. Liu, D. F. Fu, Z. G. Huang, F. Xu, Y. W. Du, “High-temperature magnetic properties of Fe-based nanocrystalline alloy”, Materials Chemistry and Physics, 2005 (89) 138-142.
  85. F. Xu*, W. Qin, K. Peng, W. L. Gao, Y. W. Du, “The mechanism of magnetic relaxation in Fe-based nanocrystalline alloy ribbons investigated by permeability spectroscopy”, Materials Research Bulletin, 2004 (39) 1029-1035.
  86. F. Xu*, W. Qin, K. Peng, W. L. Gao, Y. W. Du, “Effect of applied DC fields on the domain wall magnetization processes of FeNbBCu soft magnetic nanocrystalline ribbons at low frequencies”, Journal of Magnetism and Magnetic Materials, 2004 (272) 1449-1451.
  87. K. Peng, F. Xu, S. D. Li, D. F. Fu, Z. G. Huang, Y. W. Du, “Effects of ambient gasses on the magnetic properties of Fe84.8Zr3.4Nb3.4B7.4Cu1 nanocrystalline alloy”, Journal of Magnetism and Magnetic Materials, 2004 (272-276) 1415-1416.
  88. W. Qin, Y. F. Zhang, F. Xu, Y. W. Du, Y. J. Wu, “Martensitic transformation and its effects on permeability-frequency spectra of FeNiZrBCu alloys”, Journal of Alloys and Compounds, 2004 (372) 1-6.
  89. W. Qin, Y. F. Zhang, F. Xu, Y. W. Du, “Dependence of the permeability-frequency spectra of Fe88Zr7B4Cu alloys on dc magnetic fields”, Physics Status Solidi (A), 2004 (201) 115-120.
  90. W. Qin, Y. F. Zhang, Y. W. Du, F. Xu, Y. J. Wu, M. Zhao, F. Ma, “Permeability–frequency spectra of Nanoperm alloys under different heat treatment conditions”, Journal of magnetism and magnetic materials, 2004 (270) 174-181.
  91. S. D. Li, H. Bi, Z. J. Tian, F. Xu, B. X. Gu, M. Lu, Y. W. Du, “Surface spin pinning effect of polymer decomposition residues in CoCr2O4 nanocrystallites system”, Journal of Magnetism and Magnetic Materials, 2004 (281) 11-16.
  92. X. Y. Mao, W. L. Gao, J. C. Tang, F. Xu, Y. W. Du, “Effects of Co substitution for Fe on the magnetization process of nanocrystalline Fe-Nb-B alloys”, Journal of Magnetism and Magnetic Materials, 2004 (271) 286-289.
  93. J. Z. Jiang, W. Roseker, M. Sikorski, Q. P. Cao, F. Xu, “Pressure effect of glass transition temperature in Zr46.8Ti8.2Cu7.5Ni10Be27.5 bulk metallic glass”, Applied Physics Letters, 2004 (84) 1871-1873.
  94. F. Xu*, W. Qin, K. Peng, W. L. Gao, Y. W. Du, “Effect of slight surface oxidation on the dynamic magnetization of nanocrystalline FeNbBCu ribbons”, Materials Letters, 2003 (57) 4227-4231.
  95. F. Xu*, K. Peng, W. Qin, Y. W. Du, “Effect of Mo substitution on the magnetic permeability spectra of FeNbBCu alloy”, Journal of Materials Science Letters, 2003 (22) 69-70.
  96. W. Qin, F. Xu, K. Peng, W. L. Gao, X. L. Jiang, G. Ni, S. L. Tang, Y. W. Du, “Effect of the slight surface oxidation of ribbons on the dynamic magnetization of nanocrystalline soft magnetic ribbons”, Journal of Non-Crystalline Solids, 2003 (316) 398-402.
  97. W. Qin, W. L. Gao, F. Xu, K. Peng, S. Yang, J. R. Zhang, B. X. Gu, Y. W. Du, “The effects of nitridation on the permeability-frequency spectra in nanocrystalline Fe88Zr7B4Cu alloys”, Journal of Physics D: Applied Physics, 2003 (36) 63-67.
  98. K. Peng, W. Qin, W. L. Gao, F. Xu, Y. W. Du, “Magnetization process in NANOPERM-type nanocrystalline alloy”, Journal of Magnetism and Magnetic Materials, 2002 (250) 319-324.
  99. W. Qin, K. Peng, W. L. Gao, F. Xu, G. Ni, Y. W. Du, “Effect of cooling rate on dynamic magnetization of Fe86Zr7B6Cu nanocrystalline alloy”, Materials Research Bulletin, 2002 (37) 1393-1399.