Papers

Book Chapters:

 

1.     “Carbon Nanotubes: Synthesis, Devices, and Integrated Systems”

X. Liu, C. Lee, S. Han, C. Li, and C. Zhou

in Molecular Nanoelectronics (eds. M.A. Reed and T. Lee, American Scientific Publishers, 2003). (PDF)

 

2.     “Mesoscopic Phenomena Studied with Mechanically Controllable Break Junctions at Room Temperature”

C. Zhou, C.J. Muller, M.A. Reed, T.P. Burgin, J.M. Tour

P191 214, in Molecular Electronics (eds. J. Jortner and M. Ratner, Blackwell Science, Oxford, United Kingdom, 1997).

 

3.      "Conductance Quantization in Fully Integrated Break Junctions at Room Temperature"

C. Zhou, C.J. Muller, M.R. Deshpande, J. McCormack, and M.A. Reed

P263 274, in Nanowires (eds. P.A. Serena and N. Garcia, Kluwer, the Netherlands, 1997).

______________________________________________________________________________

 

Refereed Journal Publications:

 

2008-2009:

 

Carbon Nanotubes and Graphene:

103. Synthesis, Transfer, and Devices of Single- and Few-Layer Graphene by Chemical Vapor Deposition,

         L. Gomez, Y. Zhang, A. Kumar, and C. Zhou   

         IEEE Transactions on Nanotechnology, 8, 135 (2009). Online published on January 20, 2009 (PDF)

 

102. CMOS-Analogous Wafer-Scale Nanotube-on-Insulator Approach for Submicrometer Devices and

          Integrated Circuits Using Aligned Nanotubes,

          K. Ryu, A. Badmaev, C. Wang, A. Lin, N. Patil, L. Gomez, A. Kumar, S. Mitra, H. Wong, C.

          Zhou

          Nano Letters, 9, 189 (2009). (PDF, supporting info.)

 

101. Transparent electronics based on transfer printed aligned carbon nanotubes on rigid and flexible substrates,

          F. N.Ishikawa, H. K.Chang, K.Ryu, P.Chen, A.Badmaev, L.De Arco Gomez, G. Z.Shen, C.  

          Zhou,

          ACS Nano, 3, 73 (2008) (PDF, supporting info.)

 

100.  Threshold Voltage and On-Off Ratio Tuning for Multiple-Tube Carbon Nanotube FETs,

           A. Lin, N. Patil, K. Ryu, A. badmaev, L. Gomez De Arco, C. Zhou, S. Mitra, and H.S.P. Wong,

           IEEE Transactions on Nanotechnology, 8, 4-9 (2009). (PDF)

 

99. Low-frequency noise in top-gated ambipolar carbon nanotube field effect transistors,

           G. Xu, F. Liu, S. Han, K. Ryu, A. Badmaev, B. Lei, C. Zhou, and K. L. Wang

          Applied Physics Letters, 92, 223114 (2008). (PDF)

 

98. Small wonder The exciting world of carbon nanotubes,

            C. Zhou, A. Kumar and K. Ryu,

           IEEE Nanotechnology Magazine, 1, 13-17(2008). (PDF)

 

97. Device study, chemical doping, and logic circuits based on transferred aligned single-walled carbon nanotubes,

            C. Wang, K. Ryu, A. Badmaev, N. Patil, A. Lin, S. Mitra, H.-S. P. Wong and C. Zhou,

           Applied Physics Letters, 93, 033101 (2008). (PDF)

 

96. Resonant micro Raman spectroscopy of aligned single-walled carbon nanotubes on a-plane sapphire,

           L. Gomez, B. Lei, S. Cronin, C. Zhou,

           Applied Physics Letters, 93, 123112. (2008). (PDF)

 

95. Diameter dependence of aligned growth of carbon nanotubes on a-plane sapphire substrate

           X. Liu, K. Ryu, S. Hang, A. Badmaev, and C. Zhou,

           Journal of Physical Chemistry C 112, 15929-15933. (2008) (PDF)

 

94. Light-Induced Charge Transfer in Pyrene/CdSe-SWNT Hybrids

           L. Hu, Y. Zhao, K. Ryu, C. Zhou, J. F. Stoddart, and G. Grüner,

           Advanced Materials, 20, 939-946 (2008). (PDF)

 

93. High-throughput transfer printing of large scale chemical derived graphene sheets

           M. Allen, V. Tung, L. Gomez, Z. Xu, L. Chen, G. Yang, C. Zhou, R. Kaner, Y. Yang,

           Advanced Materials, accepted (2008).

 

Nanowire:

92. Flexible and transparent supercapacitor based on In2O3 nanowire/carbon nanotube heterogeneous

         films

    P. Chen, G. Z. Shen, S. Sukcharoenchoke, and C. Zhou

   Applied Physics Letters, 94, 43113, (2009). (PDF)

 

91.  Transparent Active Matrix Organic Light-Emitting Diode Displays Driven by Nanowire Transistor

          Circuitry,

          S. Ju, J. Li, J. Liu, P. Chen, Y. Ha, F. Ishikawa, H. Chang , C. Zhou, A. Facchetti, D. B. Janes and  

          T. J. Marks,

          Nano Letters, 8, 997-1004 (2008) (PDF).

 

90. “P-type field-effect transistors of single-crystal ZnTe nanobelts”

        J. Zhang, P. Chen, G. Z. Shen, J. He, A. Kumbhar, C. Zhou, and J. Fang

       Angewandte Chemie International Edition, 47, 9469 (2008). (PDF)

 

89. "Devices and chemical sensing applications of metal oxide nanowires"

       G. Z. Shen, P. Chen, K. Ryu, and C. Zhou.

       Journal of Materials Chemistry, 19, 828 (2009). (invited review paper , PDF)

 

88. "Chemical sensors and electronic noses based on one-dimensional metal oxide  

       nanostructures"

       P. Chen, G. Z. Shen, and C. Zhou

       IEEE Transactions on Nanotechnology, 7, 668 (2008). (invited review paper, PDF)

 

87. “1/f noise of SnO2 nanowire transistors”,

        S. Ju, P. Chen, C. Zhou, Y. Ha, A. Facchetti, T. J.Marks, S. Kim, S. Mohammadi, and

        D. B.Janes

        Applied Physics Letters, 92, 243120 (2008). (PDF)

 

86. “High-performance metal oxide nanowire chemical sensors with integrated

       micromachined hotplates”,

         K. Ryu, D. Zhang, and C. Zhou,

         Applied Physics Letters, 92, 93111-93113 (2008). (PDF)

 

85. “High performance In2O3 nanowire transistors using organic gate nanodielectrics”,

         S. Ju, F. Ishikawa, P. Chen, H. Chang, C. Zhou, Y. Ha, J. Liu, A. Facchetti, T.

        Marks, D. Janes,

        Applied Physics Letters, 92, 222105 (2008). (PDF)

 

84. “Nano Electronic Nose: A Hybrid Nanowire / Carbon Nanotube Sensor Array with

        Integrated Micromachined Hotplates for Sensitive Gas Discrimination”,

         P. Chen, F. N. Ishikawa, H. Chang, K. Ryu, and C. Zhou

         Nanotechnology, 20, 125503 (2009). (PDF)

 

83.  "Heteroepitaxial growth of orientation-ordered ZnS nanowire arrays"

        G. Z. Shen, Y. Bando, D. Golberg, C. Zhou,

        Journal of Physical Chemistry C 2008, 112, 12299. (PDF)

 

82.   "One-Step Thermo-Chemical Synthetic Method for Nanoscale 1-D Heterostructures"

        G. Z. Shen, D. Chen, C. Zhou,

        Chem. Mater. 2008, 20, 3788. (PDF)

 

81.   "Electron-beam-induced synthesis and characterization of W18O49 nanowires."

         G. Z. Shen, Y. Bando, D. Golberg, C. Zhou,

         J. Phys. Chem. C 2008, 112, 5856. (PDF)

 

80. “Pearl-like ZnS-decorated InP nanowires heterostructures and their electric behaviors”,

         G. Z. Shen, P. C. Chen, Y. Bando, D. Golberg, and C. Zhou,

         Chemistry of Materials, 20, 6779 (2008). (PDF)

 

79. “Bicrystalline Zn3P2 and Cd3P2 nanobelts and their electronic transport properties”,

         G. Z. Shen, P. C. Chen, Y. Bando, D. Golberg, and C. Zhou.

        Chemistry of Materials, 20, 7319 (2008). (PDF)

 

78. “Single-crystalline and twinned Zn3P2 nanowires: synthesis, characterization and

         electronic properties”,

         G. Z. Shen, P. C. Chen, Y. Bando, D. Golberg, and C. Zhou,

         Journal of Physical Chemistry C, 112, 16405 (2008). (PDF)

 

Biosensing:

77.  “Label-Free, Electrical Detection of the SARS Virus N-Protein with Nanowire

          Biosensors Utilizing Antibody Mimics as Capture Probes”,

          F. N. Ishikawa, H. Chang, M. Curreli, H. Liao, C. Olson, P. Chen, R. Zhang, R.  

          Roberts, R. Sun, R. Cote, M. Thompson, and C. Zhou,

          ACS Nano, 5, 1219 (2009). (PDF)

 

76.  “Rapid and Label-Free Cell Detection by Metal-Cluster-Decorated Carbon Nanotube  

         Biosensors”,

          F. N. Ishikawa, B. Stauffer, D. Caron, and C. Zhou,

         Biosensors and Bioelectroncis, 24, 2967 (2009). (PDF)

 

75.  “Real-Time, Label-Free Detection of Biological Entities Using Nanowire-Based FETs”

         M. Curreli, R. Zhang, F. N. Ishikawa, H. Chang, R. J. Cote, C. Zhou, and M.

         Thompson

         IEEE Transactions on Nanotechnology, 7, 651 (2008).

         (invited review paper, PDF)

 

2007:

 

74. Fabrication of Fully Transparent Nanowire Transistors for Transparent and Flexible Electronics,

S. Ju, A. Facchetti, Y. Xuan, J. Liu, F. Ishikawa, P. Ye, C. Zhou, T. J. Marks, and D. B. Janes,

Nature Nanotechnology, 2, 378-384 (2007) (PDF).

 

73. Symthesis of Algined Single-Walled Carbon Nanotubes Using Catalysts Defined by Nanosphere Lithography,

   K. Ryu, A. Badmaev, L. Gomez, F. Ishikawa, B. Lei, and C. Zhou

      J. of Am. Chem. Soc. 129, 10104 - 10105 (2007). (PDF)

 

72.       Synthesis and electronic properties of transition metal oxide core–shell nanowires,

B. Lei, S. Hang, C. Li, D. Zhang, Z. Liu, and C. Zhou

Nanotechnology, 18, 44019-44026 (2007) (PDF).

 

71.   Molecular memory based on nanowire-molecular wire heterostructures”,

C. Li, B. lei, W. fan, D. Zhang, M. Meyyappan, and C. Zhou

Journal of Nanoscience and Nanotechnology, 7, 138-150 (2007) (PDF).

 

2006:

 

70. Transparent, Conductive and Flexible Carbon Nanotube Films and Their Application in Organic Light Emitting Diodes,

Daihua Zhang, Koungmin Ryu, Xiaolei Liu, Evgueni Polikarpov, James Ly, Mark E.Tompson, and C. Zhou

Nano Letters, 6, 1880-1886 (2006) (PDF).

 

69. A Novel Nanotube-on-Insulator (NOI) Approach toward Nanotube Devices,

X. Liu, S. Han, and C. Zhou

Nano Letters, 6, 34-39 (2006). (PDF)

Reported by Scientific American:

http://www.sciam.com/article.cfm?chanID=sa006&articleID=0003D2B9-2FD1-1417-AE6E83414B7F0000&colID=5

 

68. Emerging memory device - Nontraditional possibilities based on nanomaterials and nanostructures ,

Kos Galatsis, K.Wang, Y.Botros, Y.Yang, Y.Xie, J.F.Stoddart, R.B.Kaner, C.Ozkan, J.Liu, M.Ozkan, K.W.Kim and C. Zhou

IEEE Circuits & Devices 22(3):12-21(May-Jun 2006). (PDF)

 

cover

 

67. Diluted Magnetic Semiconductor Nanowires: Synthesis and Transport Studies of Co Doped ZnO Core-Shell Nanowires,

S. Han, and C. Zhou

Applied Physics Letters, 88, 133109 (2006). (PDF)

 

66. Differentiation of oxidized low density lipoproteins by nanosensors ,

M.Rouhanizadeh, T.Tang, C.Li, J.Hwang, T.Hsiai, and C. Zhou

Sensors and Actuators B, 114 (2006) 788-798. (PDF)

 

65. Study of random telegraph signals in one-dimensional nanodevices ,

Fei Liu, Kang L.Wang, Chao Li, and C. Zhou

IEEE Transactions on Nanotechnology, 5, (2006) 441-445 (PDF).

 

64. Coulomb attractive random telegraph signal in single wall carbon nanotube ,

Fei Liu, Mingqiang Bao, Kang L.Wang, Daihua Zhang, and C. Zhou

Physics Review.B 74, 035438 (2006). (PDF)

 

63. Noise in carbon nanotube field effect transistor ,

Fei Liu, Kang L.Wang, Daihua Zhang, and C. Zhou

Applied Physics Letters 89, 063116 (2006) (PDF).

 

62. Molecular Memory Based on Nanowire - Molecular Wire Heterostructures ,

Chao Li, Bo Lei, Wendy Fan, Daihua Zhang, M.Meyyappan, and C. Zhou

Journal of Nanoscience and Nanotechnology, 7, 138-150 (2007) (PDF).

 

61. Methods for Fabricating Ohmic Contacts to Nanowires and Nanotubes,

E. Stern, G. Cheng, J. Klemic, E. Broomfield, D. Turner-Evans, C. Li, C. Zhou, and M. Reed

Journal of Vacuum Science and Technology B, 24, 231 -236 (2006). (PDF)

 

60. Comparison of laser-ablation and hot-wall chemical vapor deposition vapor deposition techniques for nanowire fabrication ,

E.Stern, G.Cheng, S.Guthrie, D.Turner-Evans, E.Broomfield, B.Lei, C.Li, D.Zhang, C. Zhou and M.A.Reed

Nanotechnology 17, S246-S252 (2006). (PDF)

 

59. Whole-Cell Sensing for a Harmful Bloom-Forming Microscopic Alga by Measuring Antibody-Antigen Forces,

Alexander S. Lee, Mrinal Mahapatro, David A. Caron, Aristides A. G. Requicha Beth A. Stauffer, Mark E. Thompson, and C. Zhou

IEEE transaction on nanobioscience, 5, 149-156 (2006) (PDF)

 

58. Random telegraph signals and noise behaviors in carbon nanotube transistors,

      F. Liu, K. L. Wang, D. Zhang and C. Zhou

      Applied Physics Letters 89, 243101  (2006) (PDF)

 

2005:

 

Carbon Nanotubes:

57. Template-Free Directional Growth of Single-Walled Carbon Nanotubes on a- and r-Plane Sapphire,

S. Han, X. Liu, and C. Zhou,

      J. of Am. Chem. Soc. 127, 5294 - 5295 (2005). (PDF)

      Reported by USC, Materials Today, and many online publishers.

 

56. “Synthesis and Electronic Properties of Individual Carbon Nanotube / Polypyrrole Nanocables”,

      X. Liu, J. Ly, S. Han, D. Zhang, M. Thompson, and C. Zhou,

      Advanced Materials 17, 2727-2732 (2005). (PDF)

 

55. Band Engineering of Carbon Nanotube Field-Effect Transistors via Selected Area Chemical Gating,

X. Liu, Z. Luo, S. Han, T. Tang, D. Zhang, and C. Zhou,

      Appl. Phys. Lett. 86, 243501 1-3 (2005). (PDF)

 

54. Giant Random Telegraph Signals in the Carbon Nanotubes as a Single defect Probe,

F. Liu, M. Bao, H. Kim, K. L. Wang, C. Li, X. Liu, and C. Zhou,

Appl. Phys. Lett. 86, 163102 1-3 (2005). (PDF)

 

53. Determination of the Small Band Gap of Carbon Nanotubes Using the Ambipolar Random Telegraph Signal,

      F. Liu, M. Bao, K. L. Wang, X. Liu, C. Li, and C. Zhou,

      Nano Letters 5, 1333 - 1336 (2005). (PDF)

 

Nanowires:

52. Efficient Synthesis and Electronic Studies of Core-Shell Nanowires Based on Colossal Magnetoresistive Manganites,

B. Lei, C. Li, D. Zhang, S. Han, and C. Zhou,

J. Phys. Chem. B, 109, 18799 - 18803 (2005). (PDF)

 

51. Magnetoresistive LaSrMnO3 Nanowires,

C. Li, B. Lei, Z. Luo, Z. Liu, D. Zhang, S. Han, and C. Zhou,

      Advanced Materials 17, 1548 (2005). (PDF)

 

50. Single Crystalline Magnetite Nanotubes,

Z. Liu, D. Zhang, S. Han, C. Li, B. Lei, W. Lu, J. Feng, and C. Zhou,

      J. of Am. Chem. Soc. 127, 6 - 7 (2005). (PDF)

      Reported by C&EN (January 3, 2005).

 

49. One-dimensional Transport of In2O3 Nanowires,

F. Liu, M. Bao, K. L. Wang, C. Li, B. Lei, and C. Zhou,

Appl. Phys. Lett. 86, 213101 1-3 (2005). (PDF)

 

      Biosensing:

48. Selective Functionalization of In2O3 Nanowire Mat Devices for Biosensing Application,

M. Curreli, C. Li, Y. Sun, B. Lei, M. A. Gundersen, M. E. Thompson, and C. Zhou,

J. of Am. Chem. Soc. 127, 6922 - 6923 (2005). (PDF)

 

47. Complementary Detection of Prostate Specific Antigen Using In2O3 Nanowires and Carbon Nanotubes,

      C. Li, M. Curreli, H. Lin, F. N. Ishikawa, R. Datta, R. Cote, M. E. Thompson, and C. Zhou,

      J. of Am. Chem. Soc. 127, 12484 - 12485 (2005). (PDF)

 

46. Complementary Chemical Gating Effect of In2O3 Nanowires and Carbon Nanotubes in Response to Low-Density Lipoprotein,

T. Tang, X. Liu, C. Li, B. Lei, D. Zhang, M. Rouhanizadeh, T. Hsiai, and C. Zhou,

Appl. Phys. Lett. 86, 103903 - 1-3 (2005). (PDF)

 

 

2004:

 

45. Magnetite (Fe3O4) Core-Shell Nanowires: Synthesis and Magnetoresistance,

D. Zhang, Z. Liu, S. Han, C. Li, B. Lei, M.P. Stewart, J.M. Tour, and C. Zhou,

      Nano Letters 4, 2151 - 2155 (2004). (PDF)

 

44. Transition Metal Oxide Core-Shell Nanowires: Generic Synthesis and Transport Studies,

      S. Han, C. Li, Z. Liu, B. Lei, D. Zhang, W. Jin, X. Liu, T. Tang, and C. Zhou,

      Nano Letters 4, 1241 - 1245 (2004). (PDF)

      Reported by Materials Today, Micro / Nano, and many online publishers.

 

43. Detection of NO2 down to ppb levels using individual and multiple In2O3 nanowire devices,

D. Zhang, Z. Liu, C. Li, T. Tang, X. Liu, S. Han, B. Lei, and C. Zhou,

      Nano Letters 4, 1919 - 1923 (2004). (PDF)

 

42. Charge storage behavior of nanowire transistors functionalized with bis(terpyridine) Fe(II) molecules: Dependence on molecular structure,

C. Li, W. Fan, D. A. Straus, B. Lei, S. Asano, D. Zhang, J. Han, M. Meyyappan and C. Zhou,

      J. of Am. Chem. Soc. 126, 7750 - 7751 (2004). (PDF)

 

41. Data Storage Studies on Nanowires with Self-Assembled Porphyrin Molecules,

C. Li, J. Ly, B. Lei, W. Fan, D. Zhang, J. Han, M. Meyyappan, M. Thompson and C. Zhou,

      J. of Phys. Chem. B 108, 9646 - 9649 (2004). (PDF)

 

40. Multi-Level Molecular Memories,

      C. Li, W. Fan, B. Lei, D. Zhang, S. Han, X. Liu, T. Tang, Z. Liu, S. Asano, M. Meyyapan, J. Han, and C. Zhou,

      Appl. Phys. Lett. 84, 1949 - 1951 (2004). (PDF)

 

      Reported by the American Institute of Physics, Physics Today, MRS Bulletin, Technology Research News and Materials Today.

 

1.      39.                                     “Nanowire transistors with ferroelectric gate dielectrics: enhanced performance and memory effects”,

2.                                                                              B. Lei, C. Li,  D. Zhang, Q. F. Zhou, K. K. Shung, and C. Zhou,

Appl. Phys. Lett. 84, 4553 - 4555 (2004). (PDF)

 

38. Tuning Electronic Properties of In2O3 Nanowires by Doping Control,

B. Lei, C. Li, D. Zhang, T. Tang and C. Zhou,

      Applied Physics A 79, 439 - 442 (2004). (PDF)

 

37. Synthesis and Characterization of Single-Crystal Indium Nitride Nanowires,

T. Tang, S. Han, W. Jin, X. Liu, C. Li, D. Zhang, C. Zhou, B. Chen, J. Han and M. Meyyappan,

      J. of Mater. Res. 19, 423 - 426 (2004). (PDF)

 

36. Photoconduction Studies on GaN Nanowire Transistors Under UV and Polarized UV Illumination,

      S. Han, W. Jin, D. Zhang, T. Tang, C. Li, X. Liu, Z. Liu, B. Lei, and C. Zhou,

      Chemical Physics Letters 389, 176 - 180 (2004). (PDF)

 

2003:

 

35. Controlled Growth of Gallium Nitride Single Crystal Nanowires Using a Chemical Vapor Deposition Method,

      S. Han, W. Jin, T. Tang, C. Li, D. Zhang, X. Liu, J. Han, and C. Zhou,

      J. of Mater. Res. 18, 245 249 (2003). (PDF)

      Reported by MRS Bulletin (February 2003, p95). 

 

34. Fabrication Approach for Molecular Memory Arrays,

C. Li, D. Zhang, X. Liu, S. Han, T. Tang, C. Zhou, W. Fan, J. Koehne, J. Han, M. Meyyapan, A.R. Rawlett, D.W. Price, J.M. Tour,

Appl. Phys. Lett. 82, 645 - 647 (2003). (PDF)

      Our work was reported by Technology Research News and NSF.  See:

http://www.trnmag.com/Stories/2003/061803/Prefab_key_to_molecular_memory_061803.html

http://www.eng.nsf.gov/engnews/2003/memoryarrays.htm

 

33. Diameter-controlled Growth of Single-crystalline In2O3 Nanowires and Their Electronic Properties,

      C. Li, D. Zhang, S. Han, X. Liu, T. Tang, and C. Zhou,

      Advanced Materials 15, 143 - 145 (2003). (PDF)

 

32. Electronic Transport Studies of Single-Crystalline In2O3 Nanowires,

D. Zhang, C. Li, S. Han, X. Liu, T. Tang, W. Jin, and C. Zhou,

Appl. Phys. Lett. 82, 112 - 114 (2003). (PDF)

 

31. In2O3 Nanowires as Chemical Sensors,

C. Li, D. Zhang, X. Liu, S. Han, T. Tang, J. Han, and C. Zhou,

Appl. Phys. Lett. 82, 1613 - 1615 (2003). (PDF)

 

30. Ultraviolet Photodetecting Properties of Indium Oxide Nanowires

D. Zhang, C. Li, S. Han, X. Liu, T. Tang, W. Jin and C. Zhou

Applied Physics A 77, 163 - 166 (2003). (PDF)

 

29. Doping-dependent Ammonia Sensing of Indium Oxide Nanowires,

      D. Zhang, C. Li, X. Liu, S. Han, T. Tang, and C. Zhou,

      Appl. Phys. Lett. 83, 1845 - 1847 (2003). (PDF)

 

28. "Chemical Gating of In2O3 Nanowires by Organic and Bio Molecules",

C. Li, B. Lei, D. Zhang, X. Liu, S. Han, T. Tang, M. Rouhanizadeh, T. Hsiai, and C. Zhou, Appl. Phys. Lett. 83, 4014 - 4016 (2003). (PDF)

 

27. "Surface Treatment and Doping Dependence of In2O3 Nanowires as Ammonia Sensors",

C. Li, D. Zhang, S. Han, X. Liu, and C. Zhou,

J. of Phys. Chem. B 107, 12451 12454 (2003). (PDF)

 

26. "Synthesis, Electronic Properties and Applications of Indium Oxide Nanowires",

C. Li, D. Zhang, S. Han, X. Liu, T. Tang, B. Lei, Z. Liu and C. Zhou,

Annals of New York Academy of Sciences 1006, 104 - 121 (2003). (PDF)

 

25. "Laser Ablation Synthesis and Electronic Transport Studies of Tin Oxide Nanowires"

Z. Liu, D. Zhang, S. Han, C. Li, T. Tang, W. Jin, X. Liu, B. Lei, and C. Zhou,

Advanced Materials 15, 1754 1757 (2003). (PDF)

 

24. "Synthesis and Characterization of CdO Nanoneedles"

X. Liu, C. Li, S. Han, J. Han and C. Zhou

Appl. Phys. Lett. 82, 1950 - 1952 (2003). (PDF)

 

23. "Polarization-Dependent Reflectivity from Dielectric Nanowires"

Y. Du, S. Han, W. Jin, C. Zhou, and A. F. J. Levi

Appl. Phys. Lett. 83, 996 - 998 (2003). (PDF)

 

22. "Polymer Thin-Film Transistors with High Dielectric Constant Gate Insulators "

S. Han, X. Liu, J. Han, and C. Zhou,

Applied Physics A 77, 873 - 876 (2003). (PDF)

 

21. "Nanosignal Processing: Stochastic Resonance in Carbon Nanotubes That Detect Subthreshold Signals"

Y. Lee, X. Liu, B. Kosko, and C. Zhou,

Nano Letters 3, 1683 - 1686 (2003). (PDF)

 

2001:

 

20. "Carbon Nanotube Field-Effect Inverters"

X. Liu, R. Lee, J. Han, C. Zhou

Appl. Phys. Lett. 79, 3329 3331 (2001). (PDF)

 

19. Synthesis and Preliminary Testing of Molecular Wires and Devices

J.M. Tour, A.M. Rawlett, M. Kozaki, Y.X. Yao, R.C. Jagessar, S.M. Dirk, D.W. Price, M.A. Reed, C.W. Zhou, J. Chen, W.Y. Wang and I. Campbell

Chemistry A European Journal 7, 5118 5133 (2001). (PDF)

 

2000:

 

18. "Modulated Chemical Doping of Individual Carbon Nanotubes"

C. Zhou, J. Kong, E. Yenilmez, H. Dai

Science 290, 1552 - 1555 (2000). (PDF)

 

17. Potassium Doped Semiconducting Carbon Nanotubes as Single Electron Transistors

J. Kong, C. Zhou, E. Yenilmez, H. Dai

Appl. Phys. Lett. 77, 3977 - 3979 (2000). (PDF)

 

16. "Intrinsic Electric Properties of Individual Single-Walled Carbon Nanotubes with Small Band Gaps"

C. Zhou, J. Kong and H. Dai

Phys. Rev. Lett. 84, 5604 - 5607 (2000). (PDF)

 

15. "Reversible Electromechanical Characteristics of Carbon Nanotubes under Local Probe Manipulation"

T.W. Tombler, C. Zhou, L. Alexseyev, J. Kong, H. Dai, L. Liu, C.S. Jayanthi, M. Tang, S. Wu

Nature 405, 769 - 772 (2000). (PDF)

 

14. Controllable reversibility of an sp2 to sp3 transition of a single wall nanotube under the manipulation of an AFM tip: A nanoscale electromechanical switch?

L. Liu, C.S. Jayanthi, M.J. Tang, S.Y. Wu, T.W. Tombler, C.W. Zhou, L. Alexseyev, J. Kong, H. Dai

Phys. Rev. Lett. 84, 4950 - 4953 (2000). (PDF)

 

13. "Transport Measurements of Individual Semiconducting Singled-Walled Carbon Nanotubes of Various Diameters"

C. Zhou, J. Kong and H. Dai

Appl. Phys. Lett. 76, 1597 1599 (2000). (PDF)

 

12. "Gating Individual nanotubes and Crosses with Scanning Probes"

T.W. Tombler, C. Zhou, J. Kong, H. Dai

Appl. Phys. Lett. 76, 2412 - 2412 (2000). (PDF)

 

11. "Nanotube Molecular Wires as Chemical Sensors"

J. Kong, N. Franklin, C. Zhou, S. Peng, K. Cho, H. Dai

Science 287, 622 625 (2000). (PDF)

 

1999:

 

10. "Controlled Chemical Routes to Nanotube Architectures, Physics and Devices"

H. Dai, J. Kong, C. Zhou, N. Franklin, T. Tombler, A. Cassell, S. Fan, M. Chapline

J. of Phys. Chem. B 103, 11246 - 11249 (1999). (PDF)

 

9.   "Synthesis, Integration and Electrical Properties of Individual Single-Walled Carbon Nanotubes"

J. Kong, C. Zhou, A. Morpurgo, H.T. Soh, C.F. Quate, C. Marcus, H. Dai

Appl. Phys. A 69, 305 308 (1999). (PDF)

 

8.   "Prospects for Molecular-Scale Devices"

M. A. Reed, D.W. Bennett, J. Chen, D.S. Grubisha, L. Jones II, A.M. Rawlett, J.M. Tour, and C. Zhou

IEDM Tech. Digest p. 227 - 230, 1999. (PDF)

 

1998:

 

7.   "The Electrical Measurement of Molecular Junctions"

M.A. Reed, C. Zhou, M.R. Deshpande, C.J. Muller, T.P. Burgin, L. Jones II, J.M. Tour

Annals of the New York Academy of Sciences 852, 133 150 (1998). (PDF)

 

6.   "Recent Advances in Molecular Scale Electronics"

J.M. Tour, W.A. Reinerth, L. Jones II, T.P. Burgin, C.W. Zhou, C.J. Muller, M.R. Deshpande, M.A. Reed

Annals of the New York Academy of Sciences 852, 197 213 (1998). (PDF)

 

5.   "Molecular Electronics: Synthesis and Testing"

W.A. Reinerth, L. Jones, T.P. Burgin, C.W. Zhou, C.J. Muller, M.R. Deshapnde, M.A. Reed, J.M. Tour

Nanotechnology 9, 246 249 (1998). (PDF)

 

1997:

 

4.   "Nanoscale Metal / Self-assembled Monolayer / Metal Heterostructures"

C. Zhou, M.R. Deshpande, M.A. reed, L. Joines II, and J.M. Tour

Appl. Phys. Lett. 71, 611 613 (1997). (PDF)

 

3.   "Conductance of a Molecular Junction"

M.A. Reed, C. Zhou, C.J. Muller, T.P. Burgin, and J.M. Tour

Science 278, 252 - 255 (1997). (PDF)

 

2.   "An RTD/Transistor Switching Block and Its Possible Application in Binary and Ternary Adders"

J.L Huber, J. Chen, J.A. McCormack, C. Zhou, M.A. Reed

IEEE Trans. Electron Devices 44, 2149 2154 (1997). (PDF)

 

1995:

 

1.   "Microfabrication of a Mechanically Controllable Break Junction in Silicon"

C. Zhou, C.J. Muller, M.R. Deshpande, J.W. Sleight, and M.A. Reed

Appl. Phys. Lett. 67, 1160 - 1162 (1995). (PDF)

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Patents:

 

1.      Indium Oxide Nanowires as Chemical and Bio Sensors

Chongwu Zhou

U.S. Patent Pending (2005).

 

2.      Mechanically Controllable Break Transducer

Christiaan Muller, Chongwu Zhou, and M.A. Reed

U.S. Patent No. 5,751,156 (May 12, 1998).

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