Publications    Please send email to lcqin@email.unc.edu for request of reprint.

1. L.-C. Qin, D.X. Li and K.H. Kuo, "An HREM study of the defects in ZnS"; Philosophical Magazine A53, 543-555 (1986).(PDF)

2. D.F. Lynch and L.-C. Qin, "The multislice program for use on a PC-style desktop computer"; Journal of Applied Crystallography 20, 442-444 (1987).

3. L.-C. Qin, "A further study on the self-consistent algebraic reconstruction algorithm"; Optik 76, 176-177 (1987).

4. Z.G. Xiao, X.W. Lin, T. Ko, and L.-C. Qin, "An HREM study of oxygen precipitates in silicon"; Chinese Science Bulletin 15, 26 (1987). (in Chinese)

5. Z.G. Xiao, L.-C. Qin and X.W. Lin, "Structure of plate-like oxygen precipitate in Czochralski-grown silicon"; Materials Science and Engineering 92, L9-L10 (1987).

6. Z.G. Xiao, X.W. Lin, G.Z. Liu, T. Ko and L.-C. Qin, "Crystalline plate-like SiO2 precipitates in silicon and their relation with new donors"; Journal of Materials Science 24, 3573-3576 (1989).(PDF)

7. L.-C. Qin and P. Goodman, "An alternative study of the reciprocity theorem in electron diffraction"; Ultramicroscopy 27, 115-116 (1989).

8. J.W. Steeds, L.-C. Qin and I.K. Jordan, "Characterization of defects and buried interfaces in quantum well structures by combination of LACBED and microscopic CL in a TEM"; Materials Research Society Symposium Proceedings 138, 427-430 (1989).

9. P. Goodman, A.E.C. Spargo, L.-C. Qin and K. Ishizuka, "The top bottom N-beam phase-contrast effect from finite crystals. II. Theory"; Philosophical Magazine A61, 205-220 (1990).(PDF)

10. L.-C. Qin and K. Urban, "Electron diffraction and lattice image simulations with the inclusion of HOLZ reflections"; Ultramicroscopy 33, 159-166 (1990).(PDF)

11. I.K. Jordan, A.R. Preston, L.C. Qin and J.W. Steeds, "Analysis of LACBED patterns from InP/InGaAs multiple quantum-well samples by dynamic theory"; Institute of Physics Conference Series 98, 131-134 (1990).

12. D.J. Li, J.P. Zhang, L.-C. Qin and L.D. Marks, "Indication of flux pinning by chemical defects in 123"; Electron Microscopy 1990, p.54 (1990).

13. L.-C. Qin and L.D. Marks, "Electron diffraction contrast of fluxons"; Proceedings of 49th Annual Meeting of Electron Microscopy Society of America, p.1102 (1991).

14. L.-C. Qin, A. Garratt-Reed and L.W. Hobbs, "Theory and practice of energy filtered electron diffraction using the HB5 STEM"; Proceedings of 50th Annual Meeting of Microscopy Society of America, p.350 (1992).

15. A.N. Sreeram, L.-C. Qin, A. Garratt-Reed and L.W. Hobbs, "Characterization of metamict and glassy phosphates using energy-filtered electron diffraction"; Proceedings of 50th Annual Meeting of Microscopy Society of America, p.1274 (1992).

16. L.-C. Qin, K. Urban, D. Gratias and M. Wilkens, "Multislice simulation of quasicrystal lattice images"; Proceedings of 5th Asia-Pacific Conference of Electron Microscopy, p. 504 (1992).

17. L.-C. Qin, "HREM of electron-irradiated silicas"; Proceedings of 51st Annual Meeting of Microscopy Society of America, p.1102 (1993).

18. M.E. Lewis, L.-C. Qin, A.N. Sreeram and L.W. Hobbs, "Processing of high resolution images of irradiated ceramics"; Proceedings of 51st Annual Meeting of Microscopy Society of America, p.1230 (1993).

19. L.-C. Qin and L.W. Hobbs, "Energy-filtered electron diffraction from silica thin films"; Materials Research Society Symposium Proceedings 284, 331-336 (1993).

20. L.-C. Qin and L.W. Hobbs, "HREM of electron-irradiated quartz"; Materials Research Society Symposium Proceedings 279, 387-392 (1993).

21. L.-C. Qin, "Electron diffraction from cylindrical nanotubes"; Journal of Materials Research 9, 2450-2456 (1994).(PDF)

22. L.-C. Qin and L.W. Hobbs, "On the determination of partial RDFs for amorphous materials"; Materials Research Society Symposium Proceedings 321, 39-44 (1994).

23. L.C. Qin and L.W. Hobbs, "Energy-filtered electron diffraction study of vitreous and amorphized silicas"; Journal of Non-Crystalline Solids 192&193, 456-462 (1995).(PDF)

24. L.-C. Qin and L.W. Hobbs, "Medium-range order in metamict silicas"; Materials Research Society Symposium Proceedings 373, 341-346 (1995).

25. L.-C. Qin and L.W. Hobbs, "Quantitative HREM of electron-irradiated quartz"; Materials Research Society Symposium Proceedings 373, 329-334 (1995).

26. L.C. Qin and S. Iijima, "Onion-like graphitic particles produced from diamond"; Chemical Physics Letters 262, 252-258 (1996).

27. L.C. Qin and S. Iijima, "Structure and formation of raft-like bundles of singlewalled helical carbon nanotubes produced by laser evaporation"; Chemical Physics Letters 269, 65-71 (1997).

28. L.C. Qin and S. Iijima, "Fibrilliform growth of carbon nanotubes"; Materials Letters 30, 311-314 (1997).

29. L.-C. Qin, "CVD synthesis of carbon nanotubes"; Journal of Materials Science Letters 16, 457-459 (1997).

30. L.-C. Qin, T. Ichihashi and S. Iijima, "On the measurement of helicity of carbon nanotubes"; Ultramicroscopy 67, 181-189 (1997).

31. L.-C. Qin, S. Iijima, H. Kitaura, Y. Maniwa, S. Suzuki and Y. Achiba, "Helicity and packing of single-walled carbon nanotubes studied by electron nanodiffraction"; Chemical Physics Letters 268, 101-106 (1997).

32. L.-C. Qin, T. Ichihashi and S. Iijima, "Spherical carbon clusters obtained from diamond"; Fullerene 3: Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials, 661-666 (1997).

33. D. Zhou, A.R. Krauss, L.C. Qin, T.G. McCauley, D.M. Gruen, T.D. Corrigan, R.P.H. Chang and H. Gnaser, "Synthesis and electron field emission of nanocrystalline diamond thin films grown from N2/CH4 microwave plasmas"; Journal of Applied Physics 82, 4546-4550 (1997).

34. L.-C. Qin, "Measuring the true helicity of carbon nanotubes"; Chemical Physics Letters 297, 23-28 (1998).(PDF)

35. L.-C. Qin, D. Zhou, D.M. Gruen and A.R. Krauss, "Growing carbon nanotubes by microwave plasma-enhanced chemical vapor deposition"; Applied Physics Letters 72, 3437-3439 (1998).(PDF)

36. L.-C. Qin, D. Zhou, A.R. Krauss and D.M. Gruen, "TEM characterization of nanodiamond thin films"; NanoStructured Materials 10, 649-660 (1998).

37. D. Zhou, D.M. Gruen, L.-C. Qin, T.G. McCauley and A.R. Krauss, "Control of diamond film microstructure by Ar additions to CH4/H2 microwave plasmas"; Journal of Applied Physics 84, 1981-1989 (1998).

38. D. Zhou, T.G. McCauley, L.-C. Qin, A.R. Krauss and D.M. Gruen, "Synthesis of nanocrystalline diamond thin films from Ar-CH4 microwave plasma"; Journal of Applied Physics 83, 540-543 (1998).

39. D.M. Gruen, L.A. Curtiss, P.C. Redfern and L.-C. Qin, "Nucleation of nanocrystalline diamond by fragmentation of fullerene precursors"; Fullerenes 6: Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials, 509-514 (1998).

40. A.R. Krauss, D.M. Gruen, D. Zhou, T.G. McCauley, L.-C. Qin, T. Corrigan, O. Auciello and R.P.H. Chang, "Morphology and electron emission properties of nanocrystalline CVD diamond thin films", Materials Research Society Symposium Proceedings 495, 299-307 (1998).

41. L.-C. Qin, X. Zhao, Y. Ando and S. Iijima, "What is the smallest carbon nanotube?"; Proceedings of 7th Asia-Pacific Electron Microscopy Conference – Physical Sciences, p.134 (2000).

42. L.-C. Qin, M. Yudasaka, S. Iijima, F. Kokai and K. Takahashi, "Transformation of nano-horns into nano-onions in electron beam"; Electron Microscopy 35 Supp. 1, 46 (2000).

43. K. Hirahara, X. Zhao, Y. Ando, S. Iijima and L.C. Qin, "Formation model of smallest carbon nanotubes"; Electron Microscopy 35 Supp. 1, 54 (2000).

44. L.-C. Qin and S. Iijima, "Twisting of single-walled carbon nanotube bundles"; Materials Research Society Symposium Proceedings 593, 33-36 (2000).

45. J. Tang, L.-C. Qin, A. Matsushita, T. Kikegawa, M. Yudasaka, S. Bandow and S. Iijima, "Study of carbon nanotubes under high pressure"; Materials Research Society Symposium Proceedings 593, 179-183 (2000).

46. L.-C. Qin, X. Zhao, K. Hirahara, Y. Miyamoto, Y. Ando and S. Iijima, "The smallest carbon nanotube"; Nature 408, 50 (2000).

47. J. Tang, L.-C. Qin, T. Sasaki, M. Yudasaka, A. Matsushita and S. Iijima, "Compressibility and polygonization of single-walled carbon nanotubes under hydrostatic pressure"; Physical Review Letters 85, 1887-1889 (2000).

48. L.-C. Qin, "Helical diffraction from tubular structures"; Materials Characterization 44, 407-412 (2000).

49. L.-C. Qin and S. Iijima, "Twisting of single-walled carbon nanotube bundles"; Materials Research Society Symposium Proceedings 593, 33-36 (2000).

50. J. Tang, L.-C. Qin, A. Matsushita, T. Kikegawa, M. Yudasaka, S. Bandow and S. Iijima, "Study of carbon nanotubes under high pressure"; Materials Research Society Symposium Proceedings 593, 179-183 (2000).

51. S. Bandow, F. Kokai, K. Takahashi, M. Yudasaka, L.-C. Qin and S. Iijima, "Interlayer spacing anomaly of single-wall carbon nanohorn aggregate"; Chemical Physics Letters 321, 514-519 (2000).

52. L.-C. Qin, X. Zhao, K. Hirahara, Y. Ando and S. Iijima, "Electron microscopic imaging and contrast of smallest carbon nanotubes"; Chemical Physics Letters 349, 389-393 (2001).

53. L.-C. Qin, K. Hirahara, X. Zhao, Y. Ando, and S. Iijima, "Imaging of 4A carbon nanotubes"; Electron Microscopy 36 (suppl. 1), 168 (2001).

54. J. Tang, L.-C. Qin, A. Matsushita, Y. Takano, K. Togano, H. Kito and H. Ihara, "Lattice parameter and Tc dependence of sintered MgB₂ superconductor on hydrostatic pressure"; Physical Review B 64, 132509 (2001).

55. M.J. Lopez, A. Rubio, J.A. Alonso, L.-C. Qin and S. Iijima, "New polygonized phase of single wall carbon nanotube bundles"; Physical Review Letters 86, 3056-3059 (2001).

56. J. Tang, L.-C. Qin, T. Sasaki, M. Yudasaka, A. Matsushita and S. Iijima, "Structure and property changes of single-walled carbon nanotubes under pressure"; Synthetic Metals 121, 1245-1246 (2001).

57. L.-C. Qin, J. Tang, T. Sasaki, M. Yudasaka, A. Matsushita and S. Iijima, "Structural and electronic property changes of single-walled carbon nanotubes under pressure"; American Institute of Physics Conference Proceedings 590, 205-208 (2001).

58. M. Yudasaka, H. Kataura, T. Ichihashi, L.-C. Qin, S. Kar and S. Iijima, "Diameter enhancement of HiPCo single-wall carbon nanotubes by heat treatment"; Nano Letters 1, 487-489 (2001).

59. L.-C. Qin, Electron Amorphography; in Progress in Transmission Electron Microscopy 1: Concepts and Techniques, Eds. X.-F. Zhang and Z. Zhang, Springer Series in Surface Sciences Vol. 38, pp. 223-243, (Tsinghua University Press and Springer-Verlag, 2001). (Book Chapter)

60. L.-C. Qin, Determining the Helicity of Carbon Nanotubes by Electron Diffraction; in Progress in Transmission Electron Microscopy 2: Applications in Materials Science, Eds. X.-F. Zhang and Z. Zhang, Springer Series in Surface Sciences Vol. 39, pp.73-104, (Tsinghua University Press and Springer-Verlag, 2001). (Book Chapter)

61. L.W. Hobbs, X.L. Yuan, L.-C. Qin, V. Pulim and A. Coventry, "The nanostructures of amorphous silicas"; Microscopy and Microanalysis 8(1), 29-34 (2002).

62. J. Tang, L.-C. Qin, H.-W Gu, A. Matsushita, Y. Takano, K. Togano, H. Kito and H. Ihara, "Structure and electronic properties of superconductor MgB₂ under high pressure"; Journal of Physics: Condensed Matter 14, 10623-10626 (2002).

63. J. Tang, L.-C. Qin, T. Sasaki, M. Yudasaka, A. Matsushita and S. Iijima, "Revealing properties of single-walled carbon nanotubes under high pressure"; Journal of Physics: Condensed Matter 14, 10575-10578 (2002).

64. X. Zhao, Y. Ando, L.-C. Qin, H. Kataura, Y. Maniwa and R. Saito, "Multiple splitting of G-band modes from individual multiwalled carbon nanotubes"; Applied Physics Letters 81, 2550-2552 (2002).

65. X. Zhao, Y. Ando, L.-C. Qin, H. Kataura, Y. Maniwa and R. Saito, "Radial breathing modes of multiwalled carbon nanotubes"; Chemical Physics Letters 361, 169-174 (2002).

66. X. Zhao, Y. Ando, L.-C. Qin, H. Kataura, Y. Maniwa and R. Saito, "Characteristic Raman spectra of multiwalled carbon nanotubes"; Physica B - Condensed Matter 323, 265-266 (2002).

67. S. Iijima and L.-C. Qin, "Electron microscopic characterization of silver nanowire arrays"; Science 296, 611 (2002).

68. J. Tang and L.-C. Qin, "Deformation of carbon nanotubes under high pressure"; Future Materials 3(3), 2-5 (2003). (Topical Review in Japanese)

69. L.-C. Qin: Diffraction and Imaging of Single Walled Carbon Nanotubes. In: Electron Microscopy of Nanotubes and Nanowires; Eds. Z.L. Wang and C. Hui. (Kluwer Academic Publisher, 2003) pp.1-41. (Book Chapter)

70. L.-C. Qin: Electron Diffraction Method for Measuring the Atomic Structure of Carbon Nanotubes. In: Progress on Modern Electron Microscopy; Eds. Y.M. Wang, H.Q. Ye, and K. Lu. (Academic Press, 2003) pp.55-83. (Book Chapter in Chinese)

71. J. Tang, B. Gao, H. Geng, O.D.Velev, L.-C. Qin, and O. Zhou, "Assembly of 1D Nanostructures into sub-micron diameter fibrils with controlled and variable length by dielectrophoresis"; Advanced Materials 15, 1352-1355 (2003).(PDF)

72. J. Zhang, J. Tang, G. Yang, Q. Qiu, L.-C. Qin, and O. Zhou, "Efficient fabrication of carbon nanotube point electron sources by dielectrophoresis"; Advanced Materials 16, 1219-1222 (2004).(PDF)

73. J. Tang, G. Yang, J. Zhang, H.Z. Geng, B. Bao, O. Velev, L.-C. Qin, and O. Zhou, "Controlled assembly of carbon nanotube fibrils by dielectrophoresis"; Materials Research Society Symposium Proceedings 788, 539-544 (2004).

74. H. Zhang, Q. Zhang, and L.-C. Qin, "Synthesis and TEM characterization of MgB₂/MgO nanocables"; Microscopy and Microanalysis 10 (Suppl. 2), 364-365 (2004).

75. Z. Liu and L.-C. Qin, "Determination of diameter and helicity of nanotubes in a triple tubule bundle"; Microscopy and Microanalysis 10 (Suppl. 2), 372-373 (2004).

76. Q. Zhang, J. Tang, G. Yang, G. Zhao, O. Zhou, and L.-C. Qin, "Non-destructive examination of carbon nanotube AFM probes by HRTEM"; Microscopy and Microanalysis 10 (Suppl. 2), 548-549 (2004).

77. G. Zhao, J. Zhang, Q. Zhang, J. Tang, O. Zhou, and L.-C. Qin, "Fabrication and test of single nanotube emitter as point electron source"; Microscopy and Microanalysis 10 (Suppl. 2), 550-551 (2004).

78. Z. Liu and L.-C. Qin, "Symmetry of electron diffraction from single-walled carbon nanotubes"; Chemical Physics Letters 400, 430-435 (2004).(PDF)

79. J. Tang, G. Yang, Q. Zhang^., A. Parhat, B. Maynor, J. Liu, L.-C. Qin, and O. Zhou, "Rapid and reproducible fabrication of carbon nanotube AFM probes by dielectrophoresis"; Nano Letters 5, 11-14 (2005).(PDF)

80. Z. Liu and L.-C. Qin, "Breakdown of 2mm symmetry in electron diffraction from multiwalled carbon nanotubes"; Chemical Physics Letters 402, 202-205 (2005).(PDF)

81. Z. Liu and L.-C. Qin, "A practical approach to determine the handedness of chiral carbon nanotubes by electron diffraction"; Chemical Physics Letters 405, 265-269 (2005).(PDF)

82. Z. Liu and L.-C. Qin, "Electron diffraction from elliptical nanotubes"; Chemical Physics Letters 406, 106-110 (2005).(PDF)

83. Z. Liu and L.-C. Qin, "A direct method to determine the chiral indices of carbon nanotubes"; Chemical Physics Letters 408, 75-79 (2005).(PDF)

84. A. Kleinhammes, G.W. Wagner, H. Kulkarni, Y. Jia, Q. Zhang, L.-C. Qin, and Y. Wu, "Decontamination of 2-chloroethyl ethylsulfide using titanate nanoscrolls"; Chemical Physics Letters 411, 81-85 (2005).(PDF)

85. Z. Liu and L.-C. Qin, "Measurement of handedness in multiwalled carbon nanotubes by electron diffraction"; Chemical Physics Letters 411, 291-296 (2005).(PDF)

86. Z. Liu and L.-C. Qin, "Extinction and orientational dependence of electron diffraction from single-walled carbon nanotubes"; Chemical Physics Letters 412, 399-405 (2005).(PDF)

87. Z. Liu and L.-C. Qin, "Structure and energetics of carbon nanotube ropes"; Carbon 43, 2146-2151 (2005).(PDF)

88. Z. Liu, Q. Zhang, and L.-C. Qin, "Determination and mapping of diameter and helicity for single-walled carbon nanotubes"; Physical Review B 71, 245413 (2005).(PDF)

89. Z. Liu, Q. Zhang, and L.-C. Qin, "Accurate determination of atomic structure of multiwalled carbon nanotubes by nondestructive nanobeam electron diffraction"; Applied Physics Letters 86, 191903 (2005).(PDF)

90. G. Yang, J. Tang, S. Kato, Q. Zhang, L.-C. Qin, M. Woodson, J. Liu, J.W. Kim, P.T. Littlehei, C. Park, and O. Zhou, "Magnetic nanowire based high-resolution magnetic force microscope probes"; Applied Physics Letters 87, 123507 (2005).(PDF)

91. Y.Y. Wang, S. Gupta, R. J. Nemanich, Z. Liu, and L.-C. Qin, "Hollow to bamboolike internal structure transition observed in carbon nanotube films"; Journal of Applied Physics 98, 014312 (2005).(PDF)

92. Y.Y. Wang, S. Gupta, J.M. Garguilo, Z.J. Liu, L.-C. Qin, and R.J. Nemanich, "Growth and field emission properties of small diameter carbon nanotube films"; Diamond and Related Materials 14, 714-718 (2005).(PDF)

93. J. Tang, G. Yang, J. Zhang, H. Geng, B. Gao, L.-C. Qin, O. Zhou and O.D. Velev, "Assembly and application of carbon nanotube fibrils with controlled and variable lengths by dielectrophoresis"; in Clusters and Nano-Assemblies - Physical and Biological Systems, Eds. P. Jena, S.N. Khanna and B.K. Rao, pp.193-198 (World Scientific, 2005).

94. H. Zhang, Q. Zhang, J. Tang, and L.-C. Qin, "Single-crystalline LaB₆ nanowires"; Journal of the American Chemical Society 127, 2862-2863 (2005).(PDF)

95. H. Zhang, Q. Zhang, J. Tang, and L.-C. Qin, "Single-crystalline CeB₆ nanowires"; Journal of the American Chemical Society 127, 8002-8003 (2005).(PDF)

96. C.Y. Xu, Q. Zhang, H. Zhang, L. Zhen, J. Tang and L.-C. Qin, "Synthesis and characterization of single-crystalline alkali titanate nanowires"; Journal of the American Chemical Society 127, 11584-11585 (2005). (PDF)

97. H. Zhang, Q. Zhang, G. Zhao, J. Tang, O. Zhou, and L.-C. Qin, "Single-crystalline GdB₆ nanowire field emitters"; Journal of the American Chemical Society 127, 13120-13121 (2005).(PDF)

98. H. Zhang, J. Tang, Q. Zhang, G. Zhao, G. Yang, J. Zhang, O. Zhou, and L.-C. Qin, "LaB₆ nanowires and their field emission properties"; Materials Research Society Symposium Proceedings 901E, 0901-Rb15-06 (2005).

99. H. Zhang, J. Tang, Q. Zhang, G. Zhao, G. Yang, J. Zhang, O. Zhou, and L.-C. Qin, "Field emission of electrons from single LaB₆ nanowires"; Advanced Materials 18, 87-91 (2006).(PDF)

100. X.Y. Sun, C.Y. Xu, L. Zhen, L.X. Lu, and L.-C. Qin, "Spinodal decomposition in Fe-25Cr-12Co-1Si alloy under a 100 kOe magnetic field"; Journal of Magnetism and Magnetic Materials 306, 69-72 (2006).(PDF)

101. C.Y. Xu, L. Zhen, Q. Zhang, L. Yang, J. Tang, and L.-C. Qin, "Efficient synthesis of single-crystalline Na₂Ti₆O₁₃ nanoribbons"; Journal of Functional Materials 37(Suppl), 831-833 (2006). (in Chinese)

102. L.-C. Qin, "Electron diffraction from carbon nanotubes"; Reports on Progress in Physics 69, 2761-2821 (2006). (Review Article) (PDF)

103. H. Zhang, J. Tang, Q. Zhang, and L.-C. Qin, "LaB₆ single-crystalline nanowiress for use as a field-emission point electron source"; Proceedings of 16th International Microscopy Congress, p.1254 (2006).

104. L.-C. Qin, Q. Zhang, and Z. Liu, "Obtaining the chiral indices of carbon nanotubes by electron diffraction"; Proceedings of 16th International Microscopy Congress, p.1268 (2006).

105. Q. Zhang, J. Tang, Z. Liu, H. Zhang, L.-C. Qin, X. Zhao, and Y. Ando, "Atomic structure characterization of a multi-walled carbon nanotube by nanobeam electron diffraction under Koehler illumination"; Proceedings of 16th International Microscopy Congress, p.1312 (2006).

106. J. Tang, Q. Zhang, G. Yang, O. Zhou, and L.-C. Qin, "Fabrication of AFM probes by assembling single-walled carbon nanotubes and magnetic nanowires using dielectrophoresis"; Proceedings of 16th International Microscopy Congress, p.1313 (2006).

107. G. Zhao, J. Zhang, Q. Zhang, H. Zhang, O. Zhou, L.-C. Qin, and J. Tang,  "Fabrication and characterization of single carbon nanotube emitters as point electron sources"; Applied Physics Letters 89, 193113 (2006).(PDF)

108. G. Zhao, Q. Zhang, H. Zhang, G. Yang, O. Zhou, L.-C. Qin, and J. Tang,  "Field emission of electrons from a Cs-doped single carbon nanotube of known chiral indices"; Applied Physics Letters 89, 263113 (2006).(PDF)

109. C. Qian, H. Qi, B. Gao, Y. Cheng, Q. Qiu, L.-C. Qin, O. Zhou, and J. Liu, "Fabrication of small diameter few-walled carbon nanotubes with enhanced field emission property"; Journal of Nanoscience and Nanotechnology 6[5], 1346-1349 (2006).(PDF)

110. Z. Liu, Q. Zhang, and L.-C. Qin, "Reduction of the electronic band gap in titania nanotubes"; Solid State Communications 141, 168-171 (2007).(PDF)

111. L.-C. Qin, "Determination of the chiral indices (n,m) of carbon nanotubes by electron diffraction"; Physical Chemistry Chemical Physics 9, 31-48 (2007). (Review Article) (PDF)

112. J.P. Zhang, H. Deniz, L.-C. Qin, Q. Liu, W. Ren, H.M. Cheng, "An electron microscopy study of double-walled carbon nanotubes"; Journal of the Chinese Electron Microscopy Society 26(4), 327-334 (2007).(in Chinese)

113. L.-C. Qin, "An electron diffraction method for accurate determination of the chirality of carbon nanotubes"; Journal of the Chinese Electron Microscopy Society 26(4), 342-355 (2007).(Review Article in Chinese)

114. L. Zhen, X.Y. Sun, C.Y. Xu, R.S. Gao, R.G. Xu, and L.-C. Qin, "Magnetic anisotropy in Fe-25Cr-12Co-1Si alloy induced by external magnetic field"; Transactions of Non-Ferrous Metals Society of China 17(2), 346-350 (2007).(PDF)

115. L.-C. Qin, Z. Liu, Q. Zhang, and H. Deniz, "Determination of the chirality of carbon nanotubes by electron diffraction"; Microscopy and Microanalysis 13 (Suppl. 2), 710CD (2007).

116. H. Zhang, J. Tang, Q. Zhang, O. Zhou, and L.-C. Qin, "An in situ TEM study of field emission of electrons from LaB₆ nanowires"; Microscopy and Microanalysis 13 (Suppl. 2), 780CD (2007).

117. H. Zhang, J. Tang, P. Zhu, Q. Zhang, O. Zhou, and L.-C. Qin, "Fabrication of lanthanum hexaboride single nanowire field emitter and their field emission properties"; Transactions of the Materials Research Society of Japan 32(3), 747-750 (2007).

118. H. Deniz, L.-C. Qin, H. Zhang, and J. Tang, "An electron diffraction RDF study of amorphous boron nanowires"; Microscopy and Microanalysis 13 (Suppl. 2), 782CD (2007).

119. J. Tang and L.-C. Qin, Development and Applications of Carbon Nanotube Nanofibers Produced by Dielectrophoresis; in Handbook of Nano Carbon; Edited by M. Endo and S. Iijima, NTS Publishing. (2007) pp. 240-245. (Book Chapter in Japanese)

120. C.Y. Xu, L. Zhen, L. Yang, K. He, W.Z. Shao, and L.-C. Qin, "A facile molten salt route to K₂Nb₈O₂₁ nanoribbons"; Ceramics International 34, 435-437 (2008).(PDF)

121. L. Zhen, W.S. Wang, C.Y. Xu, W.Z. Shao, and L.-C. Qin, "A facile hydrothermal route to the large-scale synthesis of CoWO₄ nanorods"; Materials Letters 62, 1740-1742 (2008). (PDF)

122. D. Chen, T. Sasaki, J. Tang, and L.-C. Qin, "Effects of deformation on the electronic structure of a single-walled carbon nanotube bundle"; Physical Review B 77, 125412 (2008).(PDF)

123. H. Zhang, J. Tang, L. Zhang, B. An, and L.-C. Qin, "AFM measurement of the Young's modulus and hardness of single LaB₆ nanowires"; Applied Physics Letters 92, 173121 (2008).(PDF)

124. J. Li, Q. Zhang, L. An, L.-C. Qin, and J. Liu, "Large-scale growth of millimeter-long single-crystalline ZnS nanobelts"; Journal of Solid State Chemistry 181, 3116-3120 (2008).(PDF)

125. C.Y. Xu, L. Zhen, Q. Zhang, J. Tang, and L.-C. Qin, "Microstructural characterization of single-crystalline potassium hollandite nanowires"; Materials Characterization 59, 1805-1808 (2008).(PDF)

126. M. Daggubati, Q. Wang, Y.V. Sokolov, Y. Liu, and L.-C. Qin, "Dependence of the fracture of PowerTrench MOSFET device on its topography in Cu bonding process"; IEEE Transactions on Components and Packaging Technologies 32, 73-78 (2009).(PDF)

127. J. Li, Q. Zhang, H. Peng, H.O. Everitt, L.-C. Qin, and J. Liu, "Diameter-controlled vapor-solid epitaxial growth and properties of aligned ZnO nanowire arrays"; Journal of Physical Chemistry C 113, 3950-3954 (2009).(PDF)

128. H. Zhang, J. Tang, P. Zhu, and L.-C. Qin, "High tensile modulus of carbon nanotube nano-fibers produced by dielectrophoresis"; Chemical Physics Letters 478, 230-233 (2009).(PDF)

129. J. Ma, J. Tang, H. Zhang, N. Shinya, and L.-C. Qin, "Ultrathin carbon nanotube fibrils of high electrochemical capacitance"; ACS Nano 3, 3679-3683 (2009).(PDF)

130. L. Lin, L.-C. Qin, S. Washburn, S. Paulson, "Electrical resistance of single-wall carbon nanotubes with determined chiral Indices"; Material Research Society Symposium Proceedings 1204, 1204-K07-06 (2009).

131. H. Zhang, J. Tang, J. Yuan, J. Ma, N. Shinya, K. Nakajima, H. Murakami, T. Ohkubo, and L.-C. Qin, "Nanostructured LaB₆ field emitter with lowest apical work function"; Nano Letters 10, 3539-3544 (2010).(PDF)

132. F. Qin, H.-X. Peng, J. Tang, and L.-C. Qin, "Multifunctional composites with glass-coated magnetic microwires for sensing applications"; Composites Part A: Applied Science and Manufacturing 41, 1823-1828 (2010).(PDF)

133. H. Deniz, A. Derbakova, and L.-C. Qin, "A systematic procedure for determining the chiral indices of multiwalled carbon nanotubes using electron diffraction - each and every shell"; Ultramicroscopy 111, 66-72 (2010).(PDF)

134. J. Ma, J. Tang, Q. Cheng, H. Zhang, N. Shinya, and L.-C. Qin, "Effects of surfactants on spinning carbon nanotube fibers by electrophoresis"; Science and Technology of Advanced Materials 11, 065005 (2010).(PDF)

135. Q. Cheng, J. Ma, H. Zhang, N. Shinya, L.-C. Qin, and J. Tang, "Electrodeposition of MnO₂ on carbon nanotube thin films as flexible electrodes for supercapacitors"; Transactions of the Materials Research Society of Japan 35(2), 369-372 (2010).

136. Q. Cheng, J. Tang, J. Ma, H. Zhang, N. Shinya, and L.-C. Qin, "Nano-flower MnO₂ coated graphene composite electrodes for energy storage devices"; Material Research Society Symposium Proceedings 1303, 1303-Y14-04 (2010).

137. Q. Cheng, J. Tang, J. Ma, H. Zhang, N. Shinya, and L.-C. Qin, "Graphene and nanostructured MnO₂ composite electrodes for supercapacitors"; Carbon 49, 2917-2925 (2011).(PDF)

138. Q. Cheng, J. Tang, J. Ma, H. Zhang, N. Shinya, and L.-C. Qin, "Graphene and carbon nanotube composite electrodes for supercapacitors"; Physical Chemistry Chemical Physics 13, 17615-17624 (2011).(PDF) (Press Release)

139. Q. Cheng, J. Tang, J. Ma, H. Zhang, N. Shinya, and L.-C. Qin, "Polyaniline-coated and electro-etched carbon fiber cloth electrodes for supercapacitors"; Journal of Physical Chemistry C 115, 23584-23590 (2011).(PDF)

140. Q. Cheng, J. Tang, Z. Wang, F. Zhang, H. Zhang, N. Shinya, and L.-C. Qin, "Electrodeposition of nano-porous cobalt hydroxide on graphene and carbon nanotube composites for supercapacitor applications"; 62nd Annual Meeting of International Society of Electrochemistry (Niigata, Japan), Sep 11-16, 2011.

141. Q. Cheng, J. Tang, Z. Wang, F. Zhang, H. Zhang, N. Shinya, and L.-C. Qin, "Polyaniline nano-cone coated graphene and carbon nanotube composite electrodes for supercapacitors with high energy density"; 62nd Annual Meeting of International Society of Electrochemistry (Niigata, Japan), Sep 11-16, 2011.

142. J. Yang, D. C. Ferranti, L. A. Stern, C. A. Sanford, J. Huang, Z. Ren, L.-C. Qin, and A. R. Hall^{, "}Rapid and precise scanning helium ion microscope milling of solid-state nanopores for biomolecule detection"; Nanotechnology 22, 285310 (2011).(PDF)

143. L. Lin, T. Cui, L.-C. Qin, and S. Washburn, "Direct measurement of the friction between and moduli of shells of carbon nanotubes"; Physical Review Letters 107, 206101 (2011).(PDF)

144. J. Ma, J. Tang, Q. Cheng, H. Zhang, N. Shinya, and L.-C. Qin, "Carbon composite microelectrodes fabricated by electrophoretic deposition"; Journal of Nanoscience and Nanotechnology 12, 1972-1978 (2012).

145. J. Yuan, H. Zhang, J. Tang, N. Shinya, K. Nakajima, and L.-C. Qin, "Field emission from single crystalline HfC nanowires"; Applied Physics Letters 100, 113111 (2012).(PDF)

146. J. Yuan, H. Zhang, J. Tang, N. Shinya, K. Nakajima, and L.-C. Qin, "Synthesis and characterization of single crystalline hafnium carbide nanowires"; Journal of the American Ceramic Society 95, 2352-2356 (2012).(PDF)

147. J. Tang and L.-C. Qin, Graphene Composites for High Capacity Capacitors"; (Section II of Chapter 6: Energy Applications), in Trends in Development for Industrial Applications, NTS Book Series 5, NTS Publishing (2012). (Book Chapter in Japanese)

148. A.R. Hall, S.A. Paulson, T. Cui, J.P. Lu, L.-C. Qin, and S. Washburn, "Torsional electromechanical systems based on carbon nanotubes"; Reports on Progress in Physics 75, 116501-22 (2012). (Review Article) (PDF)

149. H. Deniz and L.-C. Qin, "Determination of the chiral indices of WS₂ nanotubes by electron diffraction"; Chemical Physics Letters 552, 92-96 (2012). (PDF)

150. J. Yuan, H. Zhang, J. Tang, N. Shinya, Y. Lin, and L.-C. Qin, "Synthesis and characterization of single crystalline GdB₄₄Si₂ nanostructures"; Journal of Materials Science 48, 1555-1561 (2013). (PDF)

151. Q. Cheng, J. Tang, H. Zhang, N. Shinya, and L.-C. Qin, "Polyaniline nano-cone coated graphene and carbon nanotube composite electrode for asymmetric supercapacitors with high energy density"; Journal of Power Sources (2013) in press.

152. M. Zhou, J. Tang, Q. Cheng, G. Xu, P. Cui, and L.-C. Qin, "Few-layer graphene obtained by electrochemical exfoliation of graphite cathode"; Chemical Physics Letters (2013) in press.

153. M. Zhou, T. Tian, X. Li, X. Sun, J. Zhang, Y. Chen, P. Cui, J. Tang, and L.-C. Qin, "Supercapacitors based on graphene with composite pores"; Journal of Materials Chemistry A (2013) in review.

154. Q. Cheng, J. Tang, N. Shinya, and L.-C. Qin, "Co(OH)₂ nano-sheet decorated graphene-CNT composite for supercapacitors of high energy density"; Journal of Materials Science (2013) in review.

155. X. Sun, M. Zhou, and L.-C. Qin, "Analysis and measurement of the structure and Debye-Waller factors of graphene"; Journal of the Chinese Electron Microscopy Society 32(4-5), (2013) in press.

156. X. Sun and L.-C. Qin, "Analytic scattering amplitude from carbon nanotubes"; Acta Crystallographica A (2013) in review.