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Growth of carbon nanotubes: a combinatorial method to study the effects of catalysts and underlayers

Article Abstract:

An innovative combinatorial approach to investigate the controlled growth of carbon nanotubes (CNTs) on a generic addressable platform, whereby the electrical and physical properties could be assessed to and probed efficiently and conveniently is proposed. CNTs can be applied in nanoelectronics, sensors, electrodes, and nanophotonics due to their unique electronic properties.

Author: Bin Chen, Hou T. Ng, Jessica E. Koehne, Jun Li, M. Meyyappan, Jie Han
Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2003
Structure

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Growth of carbon nanotubes: a combinatorial method to study the effects of catalysts and underlayers

Article Abstract:

An innovative combinatorial approach to investigate the controlled growth of carbon nanotubes (CNTs) on a generic addressable platform, whereby the electrical and physical properties could be assessed to and probed efficiently and conveniently is proposed. CNTs can be applied in nanoelectronics, sensors, electrodes, and nanophotonics due to their unique electronic properties.

Author: Bin Chen, Hou T. Ng, Jessica E. Koehne, Jun Li, M. Meyyappan, Jie Han, Cassell, Alan M.
Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2003
All Other Miscellaneous Chemical Product and Preparation Manufacturing, Catalysts, Chemical preparations, not elsewhere classified, Electric properties, Carbon, Photonics

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Study of the extinction coefficients of single-walled carbon nanotubes and related carbon materials

Article Abstract:

A solution-phase near-IR (NIR) spectroscopic study of a range of carbon materials with an emphasis single-walled carbon nanotubes (SWNTs). The applicability of Beer's law for all of the carbon materials included in here within a range of concentrations in dimethylformamide (DMF) is demonstrated.

Author: Zhao, B., Niyogi, S., Itkis, M.E., Zhang, Hu J., Haddon, R.C
Publisher: American Chemical Society
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2004
Near infrared spectroscopy, Dimethylformamide

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Subjects list: Research, Chemistry, Physical and theoretical, Physical chemistry, Carbon compounds, Nanotubes
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