Simulation on Optoelectronic Properties of Carbon Nanotube Based Device

Ying Wu; Jun Jie Bai; Yi Xiang; Yi Hong Ou; Cheng Sheng Zhou

doi:10.4028/www.scientific.net/AMR.179-180.345

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 179-180Simulation on Optoelectronic Properties of Carbon...

Simulation on Optoelectronic Properties of Carbon Nanotube Based Device

Abstract:

The optoelectronic properties are very important to the design and fabrication of carbon nonoutbe based devices. This paper build the electromagnetic model for the carbon nanotube photosensitive device excited by the light source and making an analysis of optoelectronic properties of the photosensitive device by numerical simulation technology. Based on the theoretical analysis and numerical simulation, some constructive advices for the design of such kind of photosensitive device are given.

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Periodical:

Advanced Materials Research (Volumes 179-180)

Pages:

345-349

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.179-180.345

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Online since:

January 2011

Authors:

Ying Wu, Jun Jie Bai, Yi Xiang, Yi Hong Ou, Cheng Sheng Zhou

Keywords:

Carbon Nanotube (CN), Electromagnetic Model, HFSS, Optoelectronic Properties

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References

[1] V.N. Popov , Carbon nanotubes: properties and application, Materials Science and Engineering, R(43) 2004, pp.61-102.

Google Scholar

[2] CAO Z. L. , WANG J. N. , DING D. Y. et al, Fast growth of well aligned carbon nanotubes by chemical vapor deposition on plain glass, New Carbon Materials, 18(1) , 2003, pp.48-52.

Google Scholar

[3] Zheng L. X., O'Connell M. J., Doorn S. K., et al , ultralong single-walled carbon nanotubes, Nature Mater, 3(10), 2004, pp.673-6.

Google Scholar

[4] D. A. Stewart and F. Leonard, Phys. Rev. Lett. 93, 2004, p.107401.

Google Scholar

[5] J. U. Lee, Appl. Phys. Lett. 87, 2005, p.073101.

Google Scholar

[6] X. H. Qiu, M. Freitag, V. Perebeinos, and P. Avouris, Nano Lett. 5, 2005, p.749.

Google Scholar

[7] LIU Y., XIAO G. B., Analyzing the Photovoltaic Characteristic of Carbon Nanotube Device Using Electromagnetic Scattering Model, Progress In Electromagnetisms Research Symposium 2008, 2008, p.1168.

Google Scholar