唐元洪，男，汉族， 1965年1月出生于湖南省长沙市。物理学三级教授，博士生导师，海归博士，海南省高层次人才（拔尖人才），海外引进高层次人才，学科方向带头人。1985年和1988年在湖南大学应用物理系分别获得本科及硕士学位，然后留校任教，1996年10月进入香港城市大学攻读博士学位（导师：李述汤教授，中国科学院院士）并于2000年8月获得材料物理学博士学位，撰写的博士学位论文“硅纳米线及相关纳米线的制备及表征”获2000年度香港城市大学“优秀博士学位论文奖”；2000年9月至2002年9月在加拿大西安大略大学化学系从事博士后工作（导师：T. K. Sham教授，加拿大院士及加拿大材料与同步辐射国家首席研究员）；2002年10月至2003年8月任加拿大科学院（NRC）客座研究员，获得2002年度加拿大国家自然科学与工程委员会客座研究员奖，2003年9月回国加盟湖南大学，任首位校聘“岳麓学者”特聘教授，并于2005年入选国家“985工程”湖南大学985首席科学家。任湖南大学的三级教授。作为主研人获得2005年国家自然科学奖二等奖； 2005年被评为湖南大学“优秀教师”。2007年入选中南大学“升华学者”特聘教授，任中南大学的三级教授。2012年起任加拿大西安大略大学访问教授。2020年1月海外引进到海南师范大学物理与电子工程学院任物理学三级教授，博士生导师，海外引进高层次人才，学科方向带头人。曾任教育部首届新世纪优秀人才、湖南省新世纪121人才、教育部高等学校材料物理与化学教学指导委员会委员、中国科技大学国家同步辐射中心委员会委员、中国仪表材料学会常务理事、中国材料网理事会理事。

多年来从事硅纳米线/管、碳纳米线/管及纳米金刚石薄膜等纳米信息功能材料的研究与开发，完成数项国际科研项目，是美国最著名的阿贡国家实验室同步辐射光源的持证使用人，中国国家同步辐射实验室用户专家委员会委员。 2003年回国后，带领他的科研团队在硅纳米管自组生长方面获得重要的突破，相关成果于2005年在Adv. Mater.（先进材料，材料大类国际最权威杂志，2017年影响因子19.791）和Phys. Rev. Lett. (物理评论快报，物理大类国际最权威杂志，2017年影响因子8.462)上发表，并获得相关中国发明专利、美国和PCT专利。 中央电视台CCTV10科技之光栏目于2004年12月21日作了专题报道，2005年4月13日又作了重播，新华社、光明日报、中国教育报等新闻媒体也给予了报道。指导研究生在第九届 “挑战杯”科技竞赛中获全国特等奖，并获教育部颁发的优秀指导教师称号。

作为项目负责人主持了973计划子项目、国家教育部新世纪优秀人才基金、国家“211”重点项目、国家“985”重点项目、国家高等学校博士点基金、湖南省科技计划项目等多项研究课题，经费累计达560多万元。在Physical Review Letters (物理评论快报)、Advanced Materials（先进材料）、Applied Physics Letters（应用物理快报）等国际国内重点核心杂志上发表学术论文140余篇，其中SCI收录82篇，影响因子大于3.0的有26篇，论文总引共3667次。在纳米科学与技术领域部分成果达到国际领先水平；申请专利11项，已获授权8项，含1项美国发明专利；出版专著2部。

奖励情况：

2021.4 获海南省高层次人才（拔尖人才）

2009. 9  获中国石油和化学工业协会科技进步三等奖

2007. 5  获湖南省人事厅与民革湖南省委记三等功

2007. 3  获中南大学“升华学者”特聘教授称号

2006. 3  获湖南省“121人才”称号

2005. 11 获教育部颁发第九届“挑战杯”全国特等奖“优秀指导教师”

2005. 11 获国家“985工程”湖南大学985首席科学家

2005. 11 获湖南大学“优秀教师”奖励

2005. 8  国家自然科学二等奖主研

2004. 9  获教育部“新世纪优秀人才”称号

2003. 9  获湖南大学首个“岳麓学者”特聘教授称号

主持的项目：

1. 硅纳米结构的控制生长与相关应用基础研究， 国家973计划子项目 100万元

2. 纳米材料分析， 国家985工程重点项目， 300万元

3. 表面纳米技术，  国家211工程重点项目， 100万元

4. 硅纳米管的研究， 教育部新世纪人才基金， 50万元

5. 硅纳米线的掺杂机理研究，国家高等学校教育部博士点基金， 6万元

6. 超硬纳米金刚石薄膜的大面积生长，湖南省科技计划项目，2万元

7. 碳纳米纤维的研制， 教育部留学归国人员基金，3万元

代表性的SCI论文：

1. Tang, YH*; Pei, LZ; Chen, YW; Guo, C. Self-assembled silicon nanotubes under supercritically hydrothermal conditions. PHYSICAL REVIEW LETTERS, 2005, 95(11): 116102

2. Chen, YW; Tang, YH*; Pei, LZ; Guo, C. Self-assembled silicon nanotubes grown from silicon monoxide. ADVANCED MATERIALS,2005, 17(5): 564  

3. Tang YH*; Wang ZQ; Wang DN; Wang J; Sham TK*., Large-scale hollow nanoparticle indentification by X-ray absorption spectroscopy. Canadian J. Chem. 2017,95(11):1151-1155

4. Zhou, SW; Peng, P*; Liu, J; Tang, YH; Meng, B; Peng, YX. Investigation on the electronic structures and optical performances of Si-S codoped anatase TiO2 by first-principles calculation. PHYSICS LETTERS A, 2016, 380(16): 1462-1468   

5. Hu, AP; Chen, XH*; Tang, YH; Tang, QL; Yang, L; Zhang, SP. Self-assembly of Fe3O4 nanorods on graphene for lithium ion batteries with high rate capacity and cycle stability. ELECTROCHEMISTRY COMMUNICATIONS, 2015, 28: 139-142

6. Wang, HB; Peng, P; Tang, YH; Wang, D*; Tang, LM. TUNING THE "d(0)" FERROMAGNETISM IN In2O3 QUANTUM DOTS BY DANGLING BONDS AND VACANCY BASED ON THE FIRST-PRINCIPLE CALCULATION. MODERN PHYSICS LETTERS B, 2013, 27(10): 1350068

7. Wang, HB*; Tang, LM; Peng, P; Tang, YH; Chen, KQ. Enhancement of the hole-induced d(0)-ferromagnetism in ZnO through compensated donor-acceptor complexes: a first-principles study. SEMICONDUCTOR SCIENCE AND TECHNOLOGY, 2013, 28(3): 035017

8. Hu, AP; Chen, XH*; Tang, YH; Yang, L; Xiao, HH; Fan, BB. A facile method to synthesize Fe3O4/graphene composites in normal pressure with high rate capacity and cycling stability. MATERIALS LETTERS, 2013, 91: 315-318

9. Ding, YH*; Tang, YH; Yang, Y. Dangling Bonds-Assisted Synthesis of Arborization Silica. ASIAN JOURNAL OF CHEMISTRY, 2011, 23(8): 3626-3630   

10. Ding, YH*; Yang, Y; Tang, YH. Synthesis and characterization of coral-like micro/nano-SiO2. Advanced Materials Research, 2011, 338: 350

11. Ding, YH*; Tang, YH; Yang, Y. Synthesis of SiO2 hierarchical nanostructure on carbon nanowire. Advanced Materials Research, 2011, 236-238: 1881

12. Yang, L*; Tang, YH; Zhao, SH. Synthesis and photoluminescence of ZnS macrolattice. JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY, 2010, 53(2): 154-161

13. Lin, LW*; Tang, YH; Chen, CS; Xu, HF. Self-assembled single crystal germanium nanowires arrays under supercritical hydrothermal conditions. CRYSTENGCOMM, 2010, 12(10): 2975-2981

14. Zhang, Y; Tang, YH*; Zhang, EL; Lin, LW; Pei, LZ. Preparation of Ni/MgO catalysts for carbon nanofibres by a self-propagating low temperature combustion process. MATERIALS SCIENCE-POLAND, 2010, 28 (4): 805-815

15. Tang, YH*; Li, XC; Li, JL; Lin, LW; Xu, HF; Huang, BY. Experimental evidence for the formation mechanism of metallic catalyst-free carbon nanotubes. NANO-MICRO LETTERS, 2010, 2(1): 18-21

16. Ding, Yan-hong*; Tang, Yuan-hong; Yang, Yang. Dangling Bonds-Assisted Synthesis of Branching Type Micro/Nano-SiO(2). PROCEEDINGS OF THE 7TH NATIONAL CONFERENCE ON CHINESE FUNCTIONAL MATERIALS AND APPLICATIONS, 2010, 1-3: 1647-1651

17. Guo, C; Tang, YH*; Zhang, EL; Li, XC; Li, JL. Aggregation of self-assembled Ni(OH)(2) nanosheets under hydrothermal conditions. JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS, 2009, 20(11): 1118-1122

18. Zhang, EL; Tang, YH*; Zhang, Y; Guo, C; Yang, L. Hydrothermal synthesis of beta-nickel hydroxide nanocrystalline thin film and growth of oriented carbon nanofibers. MATERIALS RESEARCH BULLETIN, 2009, 44(8): 1765-1770

19. Lin, L. W.; Tang, Y. H*.; Chen, C. S. Self-assembled silicon oxide nanojunctions. NANOTECHNOLOGY, 2009, 20(17): 175601

20. Tang, YH*; Pei, LZ; Lin, LW; Li, XX. Preparation of silicon nanowires by hydrothermal deposition on silicon substrates. JOURNAL OF APPLIED PHYSICS, 2009, 105(4): 044301

21. Zhang, EL; Tang, YH*; Zhang, Y; Guo, C. Synthesis and photoluminescence property of silicon carbon nanowires synthesized by the thermal evaporation method. PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES, 2009, 41(4): 655-659

22. Zhang, EL; Tang, YH*; Peng, K; Guo, C; Zhang, Y. Synthesis and magnetic properties of gamma-Fe(2)O(3)/SiO(2) core-shell nanoparticles under hydrothermal conditions. SOLID STATE COMMUNICATIONS, 2008, 148(11-12): 496-500

23. Zhang, Y; Tang, YH*; Lin, LW; Zhang, EL. Microstructure transformation of carbon nanofibers during graphitization. TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA, 2008, 18(5): 1094-1099

24. Peng, K; Zhou, LP; Hu, AP; Tang, YH*; Li, D. Synthesis and magnetic properties of Ni-SiO2 nanocomposites. MATERIALS CHEMISTRY AND PHYSICS, 2008, 111(1): 34-37

25. Yang, L; Tang, YH*; Hu, AP; Chen, XH; Liang, K; Zhang, LD. Raman scattering and luminescence study on arrays of ZnO doped with Tb³⁺. PHYSICA B-CONDENSED MATTER, 2008, 403(13-16): 2230-2234

26. Li, XX; Tang, YH8; Lin, LW; Li, JL. Blue light emission in mesoporous SiOx nano-structure. MICROPOROUS AND MESOPOROUS MATERIALS, 2008, 111(1-3): 591-595

27. Yang, L; Tang, YH*; Yang, Z; Wang, Q. Synthesis of Eu2O3 nanowire arrays through a facile sol-gel template approach. JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY, 2008, 45(1): 23-26

28. Kim, PSG; Tang, YH; Sham, TK*; Lee, ST. Condensation of silicon nanowires from silicon monoxide by thermal evaporation - An X-ray absorption spectroscopy investigation. CANADIAN JOURNAL OF CHEMISTRY-REVUE CANADIENNE DE CHIMIE, 2007, 85(10): 695-701

29. Pei, LZ; Tang, YH*; Zhao, XQ; Chen, YW. Single crystalline silicon carbide nanorods synthesized by hydrothermal method. JOURNAL OF MATERIALS SCIENCE, 2007, 42(13): 5068-5073

30. Tan, Y; Tang, YH*; Pei, LZ; Chen, YW. The study on Raman spectra of Si nanowires. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2007, 27(4): 725-729

31. Chen, YW; Tang, YH*; Pei, LZ; Guo, C; Lin, LW. Silicon nanochains preparation with hydrothermal synthesis. MATERIALS SCIENCE AND ENGINEERING B-SOLID STATE MATERIALS FOR ADVANCED TECHNOLOGY, 2007, 138(2): 189-192  

32. Yu, YB*; Liu, QH; Quan, J; Tang, YH. Self-consistent theory for dynamic responses of mesoscopic systems. PHYSICAL REVIEW B, 2007, 75(11): 115329   

33. Zhu, BJ*; Tao, Y; Gong, T; Tang, YH; Wang, P. Thermodynamic study of impurity forming in preparing La1-xSrxMnO3 by self-propagating high-temperature synthesis method. RARE METAL MATERIALS AND ENGINEERING, 2007, 36(3): 513-516

34. Zhang, ZH*; Liu, HM; Xiong, YQ; Xu, WJ; Tang, YH. UV-vis absorption and PL properties of self-assembled silicon nanotubes. CHINESE PHYSICS LETTERS, 2007, 24(2): 543-545

35. Lin, LW; Tang, YH*; Pei, LZ; Zhu, LB; Zhang, Y; Guo, C.  Smooth silicon oxide nanowires under supercritically hydrothermal conditions. JOURNAL OF NON-CRYSTALLINE SOLIDS, 2007, 353(2): 159-163

36. Yang, L*; Tang, YH; Chen, XH; Li, Y; Cao, XL.  Synthesis of Eu3+ doped Y2O3 nanotube arrays through an electric field-assisted deposition method. MATERIALS CHEMISTRY AND PHYSICS, 2007, 101(1): 195-198

37. Lin, LW; Tang, YH*; Li, XX; Pei, LZ; Zhang, Y; Guo, C. Water-assisted synthesis of silicon oxide nanowires under supercritical hydrothermal conditions. JOURNAL OF APPLIED PHYSICS, 2007, 101(1): 014314

38. Pei, LZ; Tang, YH*; Zhao, XQ; Chen, YW; Guo, C. Formation mechanism of silicon carbide nanotubes with special morphology. JOURNAL OF APPLIED PHYSICS, 2006, 100(4): 046105

39. Tang, YH*; Lin, LW; Guo, C. Hydrogen storage mechanism of multiwalled carbon nanotube bundles studied by X-ray absorption spectra. ACTA PHYSICA SINICA, 2006, 55(8): 4197-4201

40. Pei, LZ; Tang, YH*; Chen, YW; Guo, C; Li, XX; Yuan, Y; Zhang, Y.  Preparation of silicon carbide nanotubes by hydrothermal method. JOURNAL OF APPLIED PHYSICS, 2006, 99(11): 114306

41. Quan, J; Yu, YB*; Tang, YH. Role of wide contacts in the ac response of a double-barrier structure. PHYSICAL REVIEW B, 2006, 73(19): 195314

42. Pei, LZ; Tang, YH*; Chen, YW; Guo, C; Zhang, W; Zhang, Y. Silicon nanowires grown from silicon monoxide under hydrothermal conditions. JOURNAL OF CRYSTAL GROWTH, 2006, 289(2): 423-427

43 Tang, YH; Sham, TK*; Yang, D; Xue, L. Preparation and characterization of pulsed laser deposition (PLD) SiC films. APPLIED SURFACE SCIENCE, 2006, 252(10): 3386-3389

44. Tang, YH*; Lin, LW A X-ray absorption spectroscopy and X-ray excited optical luminescence study of silicon nanowires. RARE METAL MATERIALS AND ENGINEERING, 2006, 35 (3): 428-432

45. Lin, LW*; Tang, YH; Zhu, LB. Effects of atomic hydrogen on growth of nanodiamond films. JOURNAL OF INORGANIC MATERIALS, 2005, 20(5): 1263-1269

46. Peng, K*; Tang, YH; Zhou, LP; Tang, JC; Xu, F; Du, YW. Influence of corrosion on the magnetic properties of amorphous and nanocrystalline FeZrNbBCu alloy. PHYSICA B-CONDENSED MATTER, 2005, 366(1-4): 110-115

47. Zhang, P; Zhou, XT; Tang, YH; Sham, TK*. Organosulfur-functionalized Au, Pd, and Au-Pd nanoparticles on 1D silicon nanowire substrates: Preparation and XAFS studies. LANGMUIR, 2005, 21(18): 8502-8508

48. Sham, TK*; Naftel, SJ; Kim, PSG; Sammynaiken, R; Tang, YH; Coulthard, I; Moewes, A; Freeland, JW; Hu, YF; Lee, ST. Electronic structure and optical properties of silicon nanowires: A study using x-ray excited optical luminescence and x-ray emission spectroscopy. PHYSICAL REVIEW B, 2004, 70(4): 045313   

49. Tang, YH; Zhou, XT; Hu, YF; Lee, CS; Lee, ST; Sham, TK*. A soft X-ray absorption study of nanodiamond films prepared by hot-filament chemical vapor deposition. CHEMICAL PHYSICS LETTERS, 2003, 372(3-4): 320-324

50. Tang, YH; Sham*, TK; Hu, YF; Lee, CS; Lee, ST. Near-edge X-ray absorption fine structure study of helicity and defects in carbon nanotubes. CHEMICAL PHYSICS LETTERS, 2002, 366(5-6): 636-641

51. Sun, XH; Sammynaiken, R; Naftel, SJ; Tang, YH; Zhang, P; Kim, PS; Sham*, TK; Fan, XH; Zhang, YF; Lee, CS; Lee, ST; Wong, NB; Hu, YF; Tan, KH. Ag nanostructures on a silicon nanowire template: Preparation and X-ray absorption fine structure study at the SiK-edge and Ag L-3,L-2-edge. CHEMISTRY OF MATERIALS, 2002, 14(6): 2519-2526

52. Tang, YH; Sham, TK*; Jurgensen, A; Hu, YF; Lee, CS; Lee, ST. Phosphorus-doped silicon nanowires studied by near edge x-ray absorption fine structure spectroscopy. APPLIED PHYSICS LETTERS, 2002, 80（20）: 3709-3711   

53. He, JZ*; Xu, JB; Xie, Z; Chiah, MF; Ke, N; Cheung, WY; Wilson, IH; Ma, XL; Tang, YH; Wang, N; Lee, CS; Lee, ST. Sample refinement and manipulation of silicon nanowires - A step towards single wire characterization. MATERIALS CHARACTERIZATION, 2002, 48(2-3): 177-181

54. Sun, XH; Tang, YH; Zhang, P; Naftel, SJ; Sammynaiken, R; Sham, TK*; Peng, HY; Zhang, YF; Wong, NB; Lee, ST. X-ray absorption fine structure and electron energy loss spectroscopy study of silicon nanowires at the Si L-3,L-2 edge. JOURNAL OF APPLIED PHYSICS, 2001, 90(12): 6379-6383   

55. Tang, YH; Zhang, P; Kim, PS; Sham, TK*; Hu, YF; Sun, XH; Wong, NB; Fung, MK; Zheng, YF; Lee, CS; Lee, ST. Amorphous carbon nanowires investigated by near-edge-x-ray-absorption-fine-structures. APPLIED PHYSICS LETTERS, 2001, 79(23): 3773-3775

56. Tang, YH; Sun, XH; Au, FCK; Liao, LS; Peng, HY; Lee, CS; Lee, ST*; Sham, TK. Microstructure and field-emission characteristics of boron-doped Si nanoparticle chains. APPLIED PHYSICS LETTERS, 2001, 79(11): 1673-1675

57. Tang, YH; Zheng, YF; Lee, CS; Wang, N; Lee, ST*; Sham, TK. Carbon monoxide-assisted growth of carbon nanotubes. CHEMICAL PHYSICS LETTERS, 2001, 342(3-4): 259-264

58. Sun, XH; Peng, HY; Tang, YH; Shi, WS; Wong, NB; Lee, CS; Lee, ST*; Sham, TK. Surface reactivity of Si nanowires. JOURNAL OF APPLIED PHYSICS, 2001,    89（11）: 6396-6399

59. Tang, YH; Zhang, YF; Wang, N; Shi, WS; Lee, CS; Bello, I; Lee, ST*. Si nanowires synthesized from silicon monoxide by laser ablation. JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B, 2001, 19(1): 317-319

60. Shi, WS; Peng, HY; Xu, L; Wang, N; Tang, YH; Lee, ST*. Coaxial three-layer nanocables synthesized by combining laser ablation and thermal evaporation. ADVANCED MATERIALS, 2000, 12(24): 1927

61. Lam, C; Zhang, YF; Tang, YH; Lee, CS; Bello, I; Lee, ST*. Large-scale synthesis of ultrafine Si nanoparticles by ball milling. JOURNAL OF CRYSTAL GROWTH, 2000, 220(4): 466-470

62. Zhang, YF; Tang, YH; Zhang, Y; Lee, CS; Bello, I; Lee, ST*. Deposition of carbon nanotubes on Si nanowires by chemical vapor deposition. CHEMICAL PHYSICS LETTERS, 2000, 330(1-2): 48-52

63. Tang, YH; Zheng, YF; Lee, CS; Lee, ST*. A simple route to annihilate defects in silicon nanowires. CHEMICAL PHYSICS LETTERS, 2000, 328(4-6): 346-349   

64. Zhang, YF; Tang, YH; Duan, XF; Zhang, Y; Lee, CS; Wang, N; Bello, I; Lee, ST*.  Yttrium-barium-copper-oxygen nanorods synthesized by laser ablation.  CHEMICAL PHYSICS LETTERS, 2000, 323(1-2): 180-184

65. Zhang, YF; Tang, YH; Lam, C; Wang, N; Lee, CS; Bello, I; Lee, ST*. Bulk-quantity Si nanowires synthesized by SiO sublimation. JOURNAL OF CRYSTAL GROWTH, 2000, 212(1-2): 115-118

66. Zhang, YF; Tang, YH; Wang, N; Lee, CS; Bello, I; Lee, ST*. Germanium nanowires sheathed with an oxide layer. PHYSICAL REVIEW B, 2000, 61(7): 4518-4521

67. Lee, ST*; Zhang, YF; Wang, N; Tang, YH; Bello, I; Lee, CS; Chung, YW. Semiconductor nanowires from oxides. JOURNAL OF MATERIALS RESEARCH, 1999, 14(12): 4503-4507

68. Tang, YH; Zhang, YF; Peng, HY; Wang, N; Lee, CS; Lee, ST*. Si nanowires synthesized by laser ablation of mixed SiC and SiO2 powders. CHEMICAL PHYSICS LETTERS, 1999, 314(1-2): 16-20

69. Tang, YH; Wang, N; Zhang, YF; Lee, CS; Bello, I; Lee, ST*. Synthesis and characterization of amorphous carbon nanowires. APPLIED PHYSICS LETTERS, 1999, 75(19): 2921-2923

70. Zhang, YF; Tang, YH; Peng, HY; Wang, N; Lee, CS; Bello, I; Lee, ST*. Diameter modification of silicon nanowires by ambient gas. APPLIED PHYSICS LETTERS, 1999, 75(13): 1842-1844

71 Au, FCK; Wong, KW; Tang, YH; Zhang, YF; Bello, I; Lee, ST*. Electron field emission from silicon nanowires. APPLIED PHYSICS LETTERS, 1999, 75(12): 1700-1702

72. Tang, YH; Zhang, YF; Wang, N; Bello, I; Lee, CS; Lee, ST*. Germanium dioxide whiskers synthesized by laser ablation. APPLIED PHYSICS LETTERS, 1999, 74(25): 3824-3826

73. Tang, YH; Zhang, YF; Wang, N; Lee, CS; Han, XD; Bello, I; Lee, ST*. Morphology of Si nanowires synthesized by high-temperature laser ablation. JOURNAL OF APPLIED PHYSICS, 1999, 85(11): 7981-7983

74. Zhang, YF; Tang, YH; Lee, CS; Bello, I; Lee, ST*. Nanocrystalline C-BN synthesized by mechanical alloying.  DIAMOND AND RELATED MATERIALS, 1999, 8(2-5): 610-613

75. Zhang, YF; Tang, YH; Wang, N; Lee, CS; Bello, I; Lee, ST.* One-dimensional growth mechanism of crystalline silicon nanowires. JOURNAL OF CRYSTAL GROWTH, 1999, 197(1-2): 136-140

76. Zhang, YF; Tang, YH; Lee, CS; Wang, N; Bello, I; Lee, ST*. Laser ablation behavior of a granulated Si target. JOURNAL OF MATERIALS SCIENCE LETTERS, 1999, 18(2): 123-125

77. Wang, N; Tang, YH; Zhang, YF; Lee, CS; Bello, I; Lee, ST*.  Si nanowires grown from silicon oxide. CHEMICAL PHYSICS LETTERS, 1999, 299(2): 237-242

78. Wang, Tang, YH; Zhang, YF; Yu, DP; Lee, CS; Bello, I; Lee, ST*. Transmission electron microscopy evidence of the defect structure in Si nanowires synthesized by laser ablation. CHEMICAL PHYSICS LETTERS, 1998, 283(5-6): 368-372

79. Zhang, YF; Tang, YH; Wang, N; Yu, DP; Lee, CS; Bello, I; Lee, ST*. Silicon nanowires prepared by laser ablation at high temperature. APPLIED PHYSICS LETTERS, 1998, 72(15): 1835-1837

80. Wang, N; Tang, YH; Zhang, YF; Lee, CS; Lee, ST*. Nucleation and growth of Si nanowires from silicon oxide. PHYSICAL REVIEW B, 1998, 58(24): 16024-16026

81. Wang, N; Zhang, YF; Tang, YH; Lee, CS; Lee, ST*.  SiO2-enhanced synthesis of Si nanowires by laser ablation. APPLIED PHYSICS LETTERS, 1998, 73(26): 3902-3904   

82. Lee, S T*; Wang, N; Zhang, YF; Tang, YH. Oxide-assisted semiconductor nanowire growth, MRS BULLETIN, 1999, 24(8): 36-42

授权专利：

• Preparation of self-assembled silicon nanotubes by hydrothermal. 美国发明专利US7544626B2, 2009-06-09
• Preparation of self-assembled silicon nanotubes，国际发明专利（PCT），WO2005/108288Al, 2006-04-07
• 水热法制备自组生长的硅纳米管及硅纳米线的方法，中国发明专利，CN200410063033.7，2006-08-09
• 纳米材料可控生长真空管式反应设备，中国实用新型专利， CN200420113803.x， 2006-02-22
• 化学气相沉积合成无金属催化剂自主生长的碳纳米管，中国发明专利，CN200810031235.1，2011.1.12
• 纳米碳纤维电热体的制备方法，中国发明专利，CN200610136772.3，2009.11.18
• 一种批量制备纳米碳纤维的立式反应装置，中国实用新型专利， CN200810143730.1， 2010-11-24
• 无碱水热法制备纤蛇纹石纳米管的方法，中国发明专利，CN200810031525.6，2009-11-18

出版专著

• 《硅纳米线及硅纳米管》 化学工业出版社
• 《Analysis of Silicon Nanowires》（英文专著：硅纳米线分析）

出版教材

• 《纳米材料导论》 普通高等学校“十一五”国家级规划教材
• 《 功率晶体管原理》

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