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2008


Carbon Nanotubes and Graphene:

92. “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)

91. “Small wonder – The exciting world of carbon nanotubes”,
C. Zhou, A. Kumar and K. Ryu,
IEEE Nanotechnology Magazine, 1, 13-17(2008). (PDF)

90. “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)

89. “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)

88. “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)

87. “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)

Nanowire and Energy Nanotechnology:

86. “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).

85. “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)

84. “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)

83. “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)

82. “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)

81. “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)

80. “One-Step Thermo-Chemical Synthetic Method for Nanoscale 1-D Heterostructures”
G. Z. Shen, D. Chen, C. Zhou,
Chem. Mater. 2008, 20, 3788. (PDF)

79. “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)

78. “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)

77. “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)

76. “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)

75. “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)

Bionanotechnology:

74. “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)