1、目前承担的科研项目:
(1)国家自然科学基金面上项目“自旋零禁带半导体的能带结构与高温铁磁性研究”(11274086),主持;
(2)高等学校省级自然科学研究项目“光伏逆变器用高性能铁基纳米晶软磁粉芯的研制”(KJ2012A227),主持;
(3)企业项目:非晶软磁粉芯开发,合作企业:江苏瑞德磁性材料有限公司,主持;
(4)企业项目:高性能金属软磁粉芯开发,合作企业:安徽首文高新材料有限公司,研发负责人。
2、曾经主持与参与的科研项目:
(1)国家自然科学青年基金项目“高饱和磁感应强度纳米晶软磁合金的晶化机制研究”(50901085),主持;
(2)教育部高等学校博士学科点专项科研基金项目“铁氧体磁性参数和层间磁耦合作用对2-2型复合多层膜磁电性能的影响”(200803591037),主持;
(3)国家博士后基金项目“高Bs低铁损新型铁基纳米晶软磁合金及其晶化机制研究”(一等,20090450082),主持;
(4)浙江省自然科学重点基金项目“高Bs铁基纳米晶软磁合金及其晶化机制研究”(Z4090294),主持;
(5)安徽省自然科学基金面上项目“纳米结构自旋零禁带半导体的磁性与输运性质研究”(1208085MA05),主持;
(6)上海市博士后基金项目“新型高Bs低损耗铁基纳米晶软磁合金及其晶化机制研究”(09R21417800),主持;
(7)宁波市自然科学基金项目“新型高饱和磁化强度铁基纳米晶软磁合金及其晶化机制研究”(2009A610003),主持;
(8)南京大学固体微结构物理国家重点实验室开放课题“高温铁磁性自旋零禁带半导体的磁性与输运性质研究”,主持;
(9)韩国三星电子株式会社中央研究院GRO课题“Spin Gapless Semiconductor”,主持。
(10)中国科学院知识创新工程重要方向项目“高性能铁族块体非晶合金与铁基纳米晶软磁材料研究”(KGCX-2-YW-803)子课题“铁基纳米晶带材制备与关键技术”,主要参与人员;
(11)国家863计划项目“低铁损新型纳米晶材料与器件开发”(2009AA03Z214),主要参与人员;
(12)台湾奈米国家型计划项目“氧化物掺杂过渡金属薄膜之定量缺陷结构暨透明自旋电子学效应研究与应用”(98-2120-M-006-004),主要参与人员;
(13)台湾新颖材料开发关键核心设施计划项目“磊晶氮氧物材料成长的关键核心设施建置”(98-2119-M-006-006),主要参与人员;
(14)国家自然科学基金项目“高密度纳米有序垂直磁记录材料的研究”(50171033),主要参与人员;
(15)安徽省高等学校省级自然科学研究项目“低K特性微特电机用磁瓦的成型工艺研究”(2009AJZR0130),主要参与人员;
(16)企业项目:高性能铁基非晶纳米晶软磁合金的研制,合作企业:安徽芜湖君华科技材料有限责任公司,30万,主要参与人员;
(17)安徽省“十五”科技攻关项目“用精铁矿粉和四氧化三锰制备功率软磁锰锌氧体”(01202001),主要参与人员;
(18)国家973计划项目“纳米材料与纳米结构”(G1999064508)子课题,参与;
(19)国家973计划项目“多元纳米复合体系的结构与性能优化”(2005CB623605)子课题,参与;
(20)国家自然科学基金项目“高性能垂直膜面各向异性永磁厚膜材料的研究”(50571043),参与;
(21)教育部高等学校博士学科点专项科研基金新教师项目“尺寸可调、掺杂量可控的ZnO基稀磁半导体纳米线阵列的研究”(070331B2),参与;
(22)安徽省“十一五”科技攻关重点项目 “高性能、高热稳定性钕铁硼永磁体的研究与开发”(06012031A),参与。
论文、成果、著作等
| 1、论文
[1] H.L. Su, G.B. Ji, S.L. Tang*, W. Chen, Z. Li, B.X. Gu, Y.W. Du, “A Kind of Potential Permanent Magnet Film”, J. Appl. Phys., 97 (2005) 116104-116106.
[2] H.L. Su, G.B. Ji, S.L. Tang*, Z. Li, B.X. Gu, Y.W. Du, “Geometry Dependence of the Annealing Effect on the Magnetic Properties of Fe48Co52 Nanowire Arrays”, Nanotechnology, 16 (2005) 429-432.
[3] H.L. Su, S.L. Tang*, N.J. Tang, R.L. Wang, M. Lu, Y.W. Du, “Chemical Synthesis and Magnetic Properties of Well-coupled FePt/Fe Composite Nanotube”, Nanotechnology, 16 (2005) 2124-2128.
[4] H.L. Su*, N.J. Tang, R.L. Wang, B. Nie, S.L. Tang, L.Y. Lv, Y.W. Du, “Chemical Synthesis of Face-centered-tetragonal FePt Film Using Sol-gel Method”, Chem. Lett., 36 (2007) 180-181.
[5] H.L. Su*, N.J. Tang, B. Nie, S.L. Tang, R.L. Wang, M. Lu, S.Y. Zhang, L.Y. Lv, Y.W. Du, “Magnetically Hard Face-centered-tetragonal FePt Film Prepared by Sol-gel Spin Coating”, Thin Solid Films, 515 (2007) 7066-7069.
[6] H.L. Su*, S.L. Tang, R.L. Wang, Y.Q. Chen, C. Jia, Y.W. Du, “Fe48Co52 Alloy Nanowire Arrays: Effects of Magnetic Field Annealing”, Chin. J. Chem. Phys., 22 (2009) 82-86.
[7] H.L. Su*, S.L. Tang, R.L. Wang, Y.W. Du, Y.Q. Chen, “AC Electrodeposition Frequency Dependence of Composition and Magnetic Properties of Fe-Co Nanowire Arrays”, J. Univ. Sci. Technol. China, (2009) 699-704.
[8] Y.D. Xu, G. Wu, H.L. Su*, M. Shi, G.Y. Yu, L. Wang, “Magnetoelectric CoFe2O4/Pb(Zr0.53Ti0.47)O3 Composite Thin Films of 2–2 Type Structure Derived by a Sol–gel Process”, J. Alloy. Compd., 509 (2011) 3811-3816.
[9] M. Shi, G.Y. Yu, H.L. Su*, R.Z. Zuo, Y.D. Xu, G. Wu, L. Wang, “Magnetoelectric Properties of CoFe2O4-Pb(Zr0.52Ti0.48)O3 Multilayered Composite Film via Sol–gel Method”, J. Mater. Sci., 46 (2011) 4710-4714.
[10] L. Wang, R.Z. Zuo*, H.L. Su*, M. Shi, Y.D. Xu, G. Wu, G.Y. Yu, “Processing and Magneto-electric Properties of Sol-gel Derived Pb(Zr0.52Ti0.48)O3-Ni0.8Zn0.2Fe2O4 2-2 Type Multilayered Films”, J. Mater. Sci., 46 (2011) 5394-5399.
[11] H.L. Su, S.Y. Huang, J.C.A. Huang*, C.C. Kuo*, Y.C. Wu, Y.W. Du, R.Z. Zuo, “Unusual High-temperature Ferromagnetism of PbPd0.81Co0.19O2 Nanograin Film”, Appl. Phys. Lett., 99 (2011) 102508-1-3.
[12] Y.D. Xu*, L. Wang, M. Shi, H.L. Su*, G. Wu, “Magnetostatic Coupling in CoFe2O4/Pb(Zr0.53Ti0.47)O3 Magnetoelectric Composite Thin Films of 2-2 Type Structure”, Chin. J. Chem. Phys., 25 (2012) 115-119.
[13] P. Li, Z.X. Zheng, H.L. Su*, Y.C. Wu*, “Effects of Cu Content on Magnetic Properties of Nanocrystalline Fe–Cu–Nb–Si–B Alloy Ribbons”, Mater. Sci. Technol., 29 (2012) 1324-1327.
[14] J.K. Liang, H.L. Su?, C.L. Kuo, S.P. Kao, J.W. Cui, Y.C. Wu?, J.C.A. Huang*, “Structural, Optical and Electrical Properties of ElectrodepositedSb-Doped ZnO Nanorod Arrays”, Electrochim. Acta, 125 (2014) 124-132.
[15] F.L. Tang, H.L. Su*, S.Y. Huang, Y.C. Wu*, J.C.A. Huang*, Y.W. Du, X.L. Huang, Y. Jin, “Microstructure and Magnetism of Hydrothermal Synthesized Mn-doped ZnTe Nanoparticles”, J. Alloy. Compd., 617 (2014) 322-325.
[16] F.L. Tang, H.L. Su*, P.Y. Chuang, Y.C. Wu*, J.C.A. Huang*, X.L. Huang, Y. Jin, “Dependence of Magnetism on the Doping Level of Zn1-xMnxTe Nanoparticles Synthesized by a Hydrothermal Method”, RSC Adv., 4 (2014) 49308-49314.
[17] J.K. Liang, H.L. Su*, Y.C. Wu*, S.P. Kao, C.L. Kuo, J.C.A. Huang, “Electrodeposition and Characterization of Sb-doped ZnO Nanostructures”, Proc. of SPIE, 8923 (2014) 89233X-1-8.
[18] J.K. Liang, H.L. Su*, P.Y. Chuang, C.L. Kuo, S.Y. Huang, T.S. Chan, Y.C. Wu*, J.C.A. Huang*, “Origin of P-type Conductivity of Sb-doped ZnO Nanorods and the Local Structure around Sb Ions”, Appl. Phys. Lett., 106 (2015) 212101-1-4.
[19] G.B. Ji, H.L. Su, S.L. Tang, Y.W. Du, B.L. Xu, “Simplified Synthesis of Cobalt Ferrite Nanotubes Using Sol-Gel Method”, Chem. Lett., 34 (2005) 86-87.
[20] P. Li, H.L. Su, Y. J. Song, Y.C. Wu, “Effects of annealing temperature on microstructure and magnetic properties of Fe73.37Cu0.92Nb2.9Si13.56B9.24 amorphous alloy”, Mater. Sci. Technol., 29 (2012) 460-463.
[21] G. Venkataiah, R.S. Huang, H.L. Su, C.P. Liu, J.C.A. Huang, “Microstructure and Magnetic Properties of Ni:ZnO Nanorod/Zn:NiO Nanowall Composite Structures”, J. Phys. Chem. C, 114 (2010) 16191.
[22] Y.G. Shi, S.L. Tang, R.L. Wang, H.L. Su, Z.D. Han, L.Y. Lv, Y.W. Du, “High-pressure Synthesis of Giant Magnetostrictive PrxTb1?xFe1.9 Alloys”, Appl. Phys. Lett., 89 (2006) 202503-1-3.
[23] X.L. Fei, S.L. Tang, R.L. Wang, H.L. Su, Y.W. Du, “Fabrication and Magnetic Properties of Fe-Pd Nanowire Arrays”, Solid State Commun., 141 (2007) 25-28.
[24] W.Q. Zou, C.N. Ge, G. Venkataiah, H.L. Su, H.S. Hsu, J.C.A. Huang, X.C. Liu, F.M. Zhang, Y.W. Du, “Ferromagnetism in Tb Doped ZnO Nanocrystalline Films”, J. Appl. Phys., 111 (2012) 113704.
[25] G.B. Ji, J.M. Cao, F. Zhang, G.Y. Xu, H.L. Su, S.L. Tang, Y.W. Du, “NixPb1-x Nanowire Arrays: Effects of Annealing”, J. Phys. Chem. B, 109 (2005) 17100-17106.
[26] M. Shi, M.S. Chen, R.Z. Zuo, Y.D. Xu, H.L. Su, L. Wang, T. Yu, “Synthesis and Characterization of La0.85Sr0.15Ga0.80Mg0.20O2.825 by Glycine Combustion Method and EDTA Combustion Method”, Powder Technol., 204 (2010) 188-193.
[27] G.B. Ji, X.H. Lin, Y.Y. Sun, S.A.A. Trimizi, H.L. Su, Y.W. Du, “Molten Salt Growth and Magnetic Properties of Octahedral CoFe2O4 Crystals: Effects of Synthesis Conditions”, Crysengcomm., 13 (2011) 6451-6456.
[28] M. Shi, R.Z. Zuo, Y.D. Xu, Y.Z. Jiang, G.Y. Yu, H.L. Su, J.G. Zhong, “Preparation and Characterization of CoFe2O4 Powders and Films via the Sol-gel Method”, J. Alloy. Compd., 512 (2012) 165-170.
[29] Z.K. Wang, H.S. Lim, V.L. Zhang, J.L. Goh, S.C. Ng, M.H. Kuok, H.L. Su, S.L. Tang, “Collective Spin Waves in High-Density Two-Dimensional Arrays of FeCo Nanowires”, Nano Lett., 6 (2006) 1083-1086. |
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