We report a novel method for stable doping of carbon nanotubes (CNT) based on methods of molecular self assembly. A conformal growth of a self-assembled monolayer of fluoroalkyl trichloro-silane (FTS) at CNT surfaces results in a strong increase of the sheet conductivity of CNT electrodes by 60–300%, depending on the CNT chirality and composition. The charge carrier mobility of undoped partially aligned CNT films was independently estimated in a field-effect transistor geometry (∼100 cm2V−1s−1). The hole density induced by the FTS monolayer in CNT sheets is estimated to be ∼1.8 × 1014 cm−2. We also show that FTS doping of CNT anodes greatly improves the performance of organic solar cells. This large and stable doping effect, easily achieved in large-area samples, makes this approach very attractive for applications of CNTs in transparent and flexible electronics.
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14 October 2014
Research Article|
October 13 2014
Stable doping of carbon nanotubes via molecular self assembly
B. Lee;
B. Lee
1Department of Physics and Institute for Advanced Materials and Devices for Nanotechnology,
Rutgers University
, New Jersey 08854, USA
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Y. Chen;
Y. Chen
1Department of Physics and Institute for Advanced Materials and Devices for Nanotechnology,
Rutgers University
, New Jersey 08854, USA
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A. Cook;
A. Cook
2Department of Physics and NanoTech Institute,
University of Texas at Dallas
, Richardson, Texas 75083, USA
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A. Zakhidov;
A. Zakhidov
2Department of Physics and NanoTech Institute,
University of Texas at Dallas
, Richardson, Texas 75083, USA
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V. Podzorov
V. Podzorov
a)
1Department of Physics and Institute for Advanced Materials and Devices for Nanotechnology,
Rutgers University
, New Jersey 08854, USA
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a)
Electronic mail: podzorov@physics.rutgers.edu.
J. Appl. Phys. 116, 144503 (2014)
Article history
Received:
July 23 2014
Accepted:
September 29 2014
Citation
B. Lee, Y. Chen, A. Cook, A. Zakhidov, V. Podzorov; Stable doping of carbon nanotubes via molecular self assembly. J. Appl. Phys. 14 October 2014; 116 (14): 144503. https://doi.org/10.1063/1.4897550
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