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Optoelectronics with Carbon Nanotubes

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99. Engel, M.; Small, J. P.; Steiner, M.; Freitag, M.; Green, A. A.; Hersam, M. C.; Avouris, P.,<br />

Thin Film Nanotube Transistors Based on Self-Assembled, Aligned, Semiconducting <strong>Carbon</strong><br />

Nanotube Arrays. ACS Nano 2008, 2 (12), 2445-2452.<br />

100. Liu, C.; Cheng, H.-M.; Cong, H. T.; Li, F.; Su, G.; Zhou, B. L.; Dresselhaus, M. S.,<br />

Synthesis of Macroscopically Long Ropes of Well-Aligned Single-Walled <strong>Carbon</strong> <strong>Nanotubes</strong>.<br />

Adv. Mater. 2000, 12 (16), 1190-1192.<br />

101. Huang, L.; Cui, X.; White, B.; O`Brien, S. P., Long and Oriented Single-Walled <strong>Carbon</strong><br />

<strong>Nanotubes</strong> Grown by Ethanol Chemical Vapor Deposition. J. Phys. Chem. B 2004, 108 (42),<br />

16451-16456.<br />

102. Scott, C. D.; Arepalli, S.; Nikolaev, P.; Smalley, R. E., Growth mechanisms for single-wall<br />

carbon nanotubes in a laser-ablation process. Applied Physics A: Materials Science & Processing<br />

2001, 72 (5), 573-580.<br />

103. Bethune, D. S.; Klang, C. H.; de Vries, M. S.; Gorman, G.; Savoy, R.; Vazquez, J.; Beyers,<br />

R., Cobalt-catalysed growth of carbon nanotubes <strong>with</strong> single-atomic-layer walls. Nature 1993,<br />

363 (6430), 605-607.<br />

104. Estrada, D.; et al., Reduction of hysteresis for carbon nanotube mobility measurements using<br />

pulsed characterization. Nanotechnology 2010, 21 (8), 085702.<br />

105. Ohno, Y.; Kishimoto, S.; Mizutani, T., Photoluminescence of single-walled carbon<br />

nanotubes in field-effect transistors. Nanotechnology 2006, 17, 549-555.<br />

106. Kim, W.; Javey, A.; Vermesh, O.; Wang, Q.; Li, Y.; Dai, H., Hysteresis Caused by Water<br />

Molecules in <strong>Carbon</strong> Nanotube Field-Effect Transistors. Nano Lett. 2003, 3 (2), 193-198.<br />

107. Ong, H. G.; Cheah, J. W.; Chen, L.; TangTang, H.; Xu, Y.; Li, B.; Zhang, H.; Li, L.-J.;<br />

Wang, J., Charge injection at carbon nanotube-SiO[sub 2] interface. Appl. Phys. Lett. 2008, 93<br />

(9), 093509.<br />

108. Vijayaraghavan, A.; Kar, S.; Soldano, C.; Talapatra, S.; Nalamasu, O.; Ajayan, P. M.,<br />

Charge-injection-induced dynamic screening and origin of hysteresis in field-modulated<br />

transport in single-wall carbon nanotubes. Appl. Phys. Lett. 2006, 89 (16), 162108.<br />

109. Freitag, M.; Steiner, M.; Naumov, A.; Small, J. P.; Bol, A. A.; Perebeinos, V.; Avouris, P.,<br />

<strong>Carbon</strong> Nanotube Photo- and Electroluminescence in Longitudinal Electric Fields. ACS Nano<br />

2009, 3 (11), 3744-3748.<br />

110. Okuto, Y.; Crowell, C. R., Energy-Conservation Considerations in the Characterization of<br />

Impact Ionization in Semiconductors. Phys. Rev. B 1972, 6, 3076-3081.<br />

111. Avouris, P.; Freitag, M.; Perebeinos, V., <strong>Carbon</strong>-nanotube photonics and optoelectronics.<br />

Nat. Photonics 2008, 2 (6), 341-350.<br />

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