Scientists
  • ● Faculty and Staff
Name:
Lianfeng Sun
Education:
Ph.D
Positions:
Academic title:
Professor
Postal Code:
100190
Subject categories:
Condensed matter physics
Mailing Address:
No.11,Beiyitiao Zhongguancun Beijing,china
E-mail:
slf@nanoctr.cn

Resume:
Education:
2001.4- 2003.9 Research Associate, Semiconductor Physics Group, Cavendish Laboratory, University of Cambridge, UK.
2000.7-2001.4: Research fellow, Department of Physics, National University of Singapore,
1997.9-2000.6:  PhD,Institute of Physics, Chinese Academy of Science.
1986.9-1989.5:  M. S. (majoring in Solid State Physics), Institute of Physics (Beijing), Chinese Academy of Sciences.
1982.9-1986.7:  B. S. (majoring in physics), Department of Physics, Qufu Normal University, Shandong, China.
Working Experience:
1990.7-1997.8:   Chief Engineer in charge of R&D, Dongying Sengar Diamond Products Co. Ltd.
2003.10-2004.3: Visiting Scholar, Group A05,  Institute of Physics, Chinese Academy of Science.
2004.4-present  Professor, National Centre for Nanoscience and Technology, Beijng. 
 

Direction:
  nanodevices

Achievements:
2002: Minor Award of the National Natural Science (Issued by State Department of the People’s Republic of China).
2001: Major Award of Natural Science of Chinese Academy of Sciences
2000: Top Director Award of Chinese Academy of Science.
2000: Excellent PhD Student of Institute of Physics, Chinese Academy of Science .
 

Article:
 

1.    Z.Liu, K.H. Zheng, L.J Hu, J. Liu, C. Qiu, H. Zhou, H. Huang, H. Yang, M. Li, C.Z. Gu, S. Xie, L. Qiao, L.F. Sun, Surface Energy Generator of Single-walled Carbon Nanotubes and Its Usage in Self-power System, accepted by Advanced Materials.

2.    K.H.Zheng, Z.Liu, J. Liu, L.J Hu, D.W.Wang , C.Y. Chen, L.F.Sun, Synthesis of High-TC ferromagnetic Mn-doped ZnO nanorods by thermal evaporation, accepted by Chinese Physics B

3.    Y.Ren, L. Song , W.J. Ma , Y.C. Zhao , L.F. Sun , C.Z. Gu , W.Y. Zhou , S.S. Xie,  Additional curvature-induced Raman splitting in carbon nanotube ring structures, PHYSICAL REVIEW B  80, 113412  ( 2009).

4.    Y.W. Huang, B.G. Quan, Z.X. Wei, G.T. Liu , L.F. Sun, Self-Assembled Organic Functional Nanotubes and Nanorods and Their Sensory Properties, JOURNAL OF PHYSICAL CHEMISTRY C 113,  3929(2009).

5.    Coulomb Explosion: A Novel Approach to Separate Single-Walled Carbon Nanotubes from Their Bundle, Liu GT, Zhao YC, Zheng KH, Liu Z, Ma WJ, Ren Y, Xie SS, Sun LF. NANO LETTERS 9, 239(2009).

6.    Effectively enhanced oxygen sensitivity of individual ZnO tetrapod sensor by water preadsorption, Zheng KH, Zhao YC, Deng K, Liu Z, Sun LF, Zhang Z X, Song L, Yang H F, Gu CZ, Xie SS, APPLIED PHYSICS LETTERS 92, 213116(2008).

7.    ZnO Tetrapods: Designed as Multi-Terminal Sensors to Distinguish False Responses and Increase Sensitivity, Zhang ZX, Sun LF, Zhao YC, Liu Z, Liu DF, Cao L, Zou BS, Zhou WY, Gu CZ and Xie SS, NANO LETTERS 8, 652(2008).

8.    Individual water-filled single-walled carbon nanotube as a hydro-electric power convertor, Zhao YC, Song L, Deng K, Liu Z, Zhang ZX, Yang YL, Wang C, Yang HF, Jin AZ, Luo Q, Gu CZ, Xie SS and Sun LF, Advanced Materials 20, 1772(2008).

9.    Highly dense and perfectly aligned single-walled carbon nanotubes fabricated by diamond wire drawing dies, Liu GT, Zhao YC, Deng K, Liu Z, Chu WG, Chen JR, Yang YL, Zheng KH, Huang HB, Ma WJ, Song L, Yang HF, Gu CZ, Rao GH, Wang C, Xie SS and Sun LF, NANO LETTERS 8, 1071(2008).

10.   Large-scale synthesis of nitrogen-rich carbon nitride microfibers by using graphitic carbon nitride as precursor, Zhao YC, Liu Z, Chu WG, Song L, Zhang ZX, Yu DL, Tian YJ, Xie SS and Sun LF, Advanced Materials 20, 1777(2008).

11.   Surface-Enhanced/Normal Raman Scattering Studies on an Isolated and Individual Single-Walled Carbon Nanotube,Zhao YC, Ma WJ, Song L, Liu Z, Liu GT, Zhang ZX, Yang YL, Guo YJ, Ma DL, Xie SS, Sun LF, Journal of Nanoscience and Nanotechnology 9, 1308(2009).

12.   Well-aligned multi-walled carbon nanotubes and their photoresponse, Huang HB, Liu Z, Zhao YC, Zheng KH, Xie SS and Sun LF, Journal of Nanoscience and Nanotechnology 9, 1326(2009).

13.   Oxygen Desorption from Single-walled Carbon Nanotubes by Camera Flash,Liu Z, Liu GT, Zhao YC, Zheng KH, Huang HB, Yang YL, Wang C, Ma WJ, Gu CZ, Xie SS, Sun LF, Journal of Nanoscience and Nanotechnology 9, 1354(2009).

14.  Novel Resistance Behavior of Single-walled Carbon Nanotubes under Large Currents,Liu GT, Liu Z, Zhao YC, Ma WJ, Zheng KH, Huang HB, Sun LF, Xie SS,Journal of Nanoscience and Nanotechnology 9, 1357(2009).

15.  Large photocurrent generated by a camera flash in single-walled carbon nanotubes, Liu GT, Liu Z, Zhao YC, Zheng KH, Huang HB, Ma WJ, Gu CZ, Sun LF, Xie SS,JOURNAL OF PHYSICS D-APPLIED PHYSICS 40, 6898(2007).

16.   Secondary growth of small ZnO tripodlike arms on the end of nanowires, Zhang ZX, Liu YZ, Liu DF, Luo SD, Shen J, Liu LF, Ma WJ, Ren Y, Xiang YJ, Zhou WY, Xie SS, Zheng KH, Zhao YC, Sun LF, Zou CX, Yu DP, APPLIED PHYSICS LETTERS 91, 013106(2007).

17.   Directly synthesized strong, highly conducting, transparent single-walled carbon nanotube films, Ma WJ, Song L, Yang R, Zhang TH, Zhao YC, Sun LF, et al.,NANO LETTERS 7, 2307(2007).

18.   Large-scale synthesis and optical behaviors of ZnO tetrapods, Zhang ZX, Yuan HJ, Gao Y, Wang JX, Liu DF, Shen J, Liu LF, Zhou WY, Xie SS, Wang X, Zhu X, Zhao YC, Sun LF, APPLIED PHYSICS LETTERS 90, 153116(2007).

19.   Large-scale synthesis of rings of bundled single-walled carbon nanotubes by floating chemical vapor deposition, Song L, Ci LJ, Sun LF, et al.,ADVANCED MATERIALS 18, 1817(2006).

20.   Efficiently producing single-walled carbon nanotube rings and investigation of their field emission properties, Song L, Ci LJ, Jin CH, Tan PH, Sun LF, et al.,NANOTECHNOLOGY 17, 2355(2006).

21.   Controllable preparation and properties of single-/double-walled carbon nanotubes,  Xie SS, Song L, Ci LJ, Zhou ZP, Dou XY, Zhou WY, Wang G, Sun LF, SCIENCE AND TECHNOLOGY OF ADVANCED MATERIALS 6, 725(2005).

22.   Growth of aligned single-walled carbon nanotubes under ac electric fields through floating catalyst chemical vapour deposition, Dou XY, Zhou ZP, Tan PH, Zhou JJ, Song L, Sun LF, et al.,CHINESE PHYSICS 14, 2068(2005).

23.   Two possible emission mechanisms involved in the arc discharge method of carbon nanotube preparation, Tang DS, Sun LF, et al.,CARBON 43, 2812 (2005).

24.   Shadow-evaporated nanometre-sized gaps and their use in electrical studies of nanocrystals, Sun LF, Chin S N, et al.,Nanotechnology 16, 631(2005).

25.   Growth of carbon nanotube arrays using the existing array as a substrate and their Raman characterization, Sun LF, Liu ZQ, Ma XC, et al.,CHEMICAL PHYSICS LETTERS 340, 222(2001).

26.   Growth of carbon nanofibers array under magnetic force by chemical vapor deposition,Sun LF, Liu ZQ, Ma XC, et al.,CHEMICAL PHYSICS LETTERS 336, 392(2001).

27.   Effects of temperature oscillations on the growth of carbon nanotubes by chemical vapor deposition, Sun LF, Xie SS, Mao JM, et al.,APPLIED PHYSICS LETTERS 76, 828(2000).

28.   Materials - Creating the narrowest carbon nanotubes,Sun LF, Xie SS, et al.,NATURE 403, 384(2000).

29.   Growth of straight nanotubes with a cobalt-nickel catalyst by chemical vapor deposition

Sun LF, Mao JM, and et al.,APPLIED PHYSICS LETTERS74, 644(1999).

30.   Structure and morphology of carbon nanotubes grown on zeolite-supported catalysts by chemical vapor deposition, Sun LF, Mao JM, et al.,ACTA PHYSICA SINICA-OVERSEAS EDITION 8, 545(1999).

31.   Growth of carbon nanotubes on cobalt disilicide precipitates by chemical vapor deposition,Mao JM, Sun LF, Qian LX, et al.,APPLIED PHYSICS LETTERS 72, 3297(1998).

32.   AuPd catalytic nanoparticle size effect on the formation of amorphous silicon nanowires

Liu ZQ, Sun LF, Tang DS, et al. ,CHINESE PHYSICS 9, 774(2000).

33.   Growth of amorphous silicon nanowires,Liu ZQ, Zhou WY, Sun LF, et al.,CHEMICAL PHYSICS LETTERS 341, 523(2001).

34.   Nanosized nickel(or cobalt)/graphite composites for hydrogen storage, Zhong ZY, Xiong ZT, Sun LF, et al. ,JOURNAL OF PHYSICAL CHEMISTRY B 106, 9507(2002).

35.   Effect of acetylene in buffer gas on the microstructures of carbon nanotubes in arc discharge,Tang DS, Xie SS, Chang BH, Sun LF, et al. ,NANOTECHNOLOGY 13, L1(2002).

36.   Dispersing and coating of transition metals Co, Fe and Ni on carbon materials,Zhong ZY, Liu BH, Sun LF, et al.,CHEMICAL PHYSICS LETTERS 362, 135(2002).

37.   Fabrication, characterization and property of aligned multi-walled carbon nanotubes, Xie SS, Zhou WY, Pan ZW, Chang BH, Li WZ, Lu L, Sun LF,INTERNATIONAL JOURNAL OF NONLINEAR SCIENCES AND NUMERICAL SIMULATION 3, 731(2002).

38.   Preparation of monodispersed multi-walled carbon nanotubes in chemical vapor deposition,Tang DS, Xie SS, Pan ZW, Sun LF, et al.,CHEMICAL PHYSICS LETTERS 356, 563(2002).

39.   Raman scattering and thermogravimetric analysis of iodine-doped multiwall carbon nanotubes, Zhou WY, Xie SS, Sun LF, et al.,APPLIED PHYSICS LETTERS 80, 2553(2002).

40.   Preparation of very long and open aligned carbon nanotubes,Pan ZW, Chang BH, Sun LF, et al.,SCIENCE IN CHINA SERIES A 43, 210(2000).

41.   Conductivity and magnetic susceptibility of nanotube/polypyrrole nanocomposites,Chang BH, Liu ZQ, Sun LF, et al.,JOURNAL OF LOW TEMPERATURE PHYSICS 119, 41(2000).

42.   Catalytic synthesis of straight silicon nanowires over Fe containing silica gel substrates by chemical vapor deposition,Liu ZQ, Xie SS, Zhou WY, Sun LF, et al.,JOURNAL OF CRYSTAL GROWTH 224, 230(2001).

43.   Very low-field emission from aligned and opened carbon nanotube arrays,Pan ZW, Au FCK, Lai HL, Zhou WY, Sun LF, et al.,JOURNAL OF PHYSICAL CHEMISTRY B 105, 1519(2001).

44.   Carbon nanotube arrays,Xie SS, Li WZ, Pan ZW, Chang BH, Sun LF,MATERIALS SCIENCE AND ENGINEERING A 286, 11(2000).

45.   Carbon nanotube arrays,Xie SS, Li WZ, Pan ZW, Chang BH, Sun LF,EUROPEAN PHYSICAL JOURNAL D 9, 85(1999).

46.   Mechanical and physical properties on carbon nanotube,Xie SS, Li WZ, Pan ZW, Chang BH, Sun LF,JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS 61, 1153(2000).

47.   The electrical behavior of carbon nanotubes under high pressure,Tang DS, Bao ZX, Wang LJ, Chen LC, Sun LF, et al.,JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS 61, 1175(2000).

48.   Evidence for an open-ended nanotube growth model in arc discharge, Tang DS, Xie SS, Liu W, Chang BH, Sun LF, et al.,CARBON 38, 480(2000).

49.   Behavior of carbon nanotubes under high pressure and high temperature, Tang DS, Chen LC, Wang LJ, Sun LF, et al.,JOURNAL OF MATERIALS RESEARCH 15, 560(2000).

50.   Synthesis and characterization of aligned carbon nanotube arrays, Xie SS, Chang BH, Li WZ, Pan ZW, Sun LF, et al.,ADVANCED MATERIALS 11, 1135(1999).

51.   Tensile tests of ropes of very long aligned multiwall carbon nanotubes, Pan ZW, Xie SS, Lu L, Chang BH, Sun LF, et al.,APPLIED PHYSICS LETTERS 74, 3152(1999).

52.   Direct growth of aligned open carbon nanotubes by chemical vapor deposition, Pan ZW, Xie SS, Chang BH, Sun LF, et al.,CHEMICAL PHYSICS LETTERS 299, 97 (1999).

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