The polarized carbon nanotube thin film LED

Megumi Kinoshita; Mathias Steiner; Michael Engel; Joshua P. Small; Alexander A. Green; Mark C. Hersam; Ralphxs Krupke; Emilio E. Mendez; Phaedon Avouris

doi:10.1364/OE.18.025738

The polarized carbon nanotube thin film LED

Megumi Kinoshita, Mathias Steiner, Michael Engel, Joshua P. Small, Alexander A. Green, Mark C. Hersam, Ralphxs Krupke, Emilio E. Mendez, Phaedon Avouris

Molecular Sciences, School of (SMS)

Research output: Contribution to journal › Article › peer-review

44 Scopus citations

Abstract

We demonstrate a light emitting p-i-n diode made of a highly aligned film of separated (99%) semiconducting carbon nanotubes, self-assembled from solution. By using a split gate technique, we create p- and n-doped regions in the nanotube film that are separated by a micron-wide gap. We inject p- and n-type charge carriers into the device channel from opposite contacts and investigate the radiative recombination using optical micro-spectroscopy. We find that the threshold-less light generation efficiency in the intrinsic carbon nanotube film segment can be enhanced by increasing the potential drop across the junction, demonstrating the LED-principle in a carbon nanotube film for the first time. The device emits infrared light that is polarized along the long axes of the carbon nanotubes that form the aligned film.

Original language	English (US)
Pages (from-to)	25738-25745
Number of pages	8
Journal	Optics Express
Volume	18
Issue number	25
DOIs	https://doi.org/10.1364/OE.18.025738
State	Published - Dec 6 2010

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1364/OE.18.025738

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abstract = "We demonstrate a light emitting p-i-n diode made of a highly aligned film of separated (99%) semiconducting carbon nanotubes, self-assembled from solution. By using a split gate technique, we create p- and n-doped regions in the nanotube film that are separated by a micron-wide gap. We inject p- and n-type charge carriers into the device channel from opposite contacts and investigate the radiative recombination using optical micro-spectroscopy. We find that the threshold-less light generation efficiency in the intrinsic carbon nanotube film segment can be enhanced by increasing the potential drop across the junction, demonstrating the LED-principle in a carbon nanotube film for the first time. The device emits infrared light that is polarized along the long axes of the carbon nanotubes that form the aligned film.",

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AU - Kinoshita, Megumi

AU - Steiner, Mathias

AU - Engel, Michael

AU - Small, Joshua P.

AU - Green, Alexander A.

AU - Hersam, Mark C.

AU - Krupke, Ralphxs

AU - Mendez, Emilio E.

AU - Avouris, Phaedon

PY - 2010/12/6

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AB - We demonstrate a light emitting p-i-n diode made of a highly aligned film of separated (99%) semiconducting carbon nanotubes, self-assembled from solution. By using a split gate technique, we create p- and n-doped regions in the nanotube film that are separated by a micron-wide gap. We inject p- and n-type charge carriers into the device channel from opposite contacts and investigate the radiative recombination using optical micro-spectroscopy. We find that the threshold-less light generation efficiency in the intrinsic carbon nanotube film segment can be enhanced by increasing the potential drop across the junction, demonstrating the LED-principle in a carbon nanotube film for the first time. The device emits infrared light that is polarized along the long axes of the carbon nanotubes that form the aligned film.

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The polarized carbon nanotube thin film LED

Abstract

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