Subband population in a single-wall carbon nanotube diode

A. T. Johnson; C. Kane; J. W. Mintmire; J. W. Wildoer; K. Esfarjani; L. Chico; L. Venema; M. Bockrath; N. Hamada; P. Collins; R. D. Antonov; R. F. Kazarinov; R. Martel; R. Saito; S. J. Tans; S. J. Tans; S. M. Sze; T. W. Odom

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Subband population in a single-wall carbon nanotube diode

Authors: A. T. Johnson
C. Kane
J. W. Mintmire
J. W. Wildoer
K. Esfarjani
L. Chico
L. Venema
M. Bockrath
N. Hamada
P. Collins
R. D. Antonov
R. F. Kazarinov
R. Martel
R. Saito
S. J. Tans
S. J. Tans
S. M. Sze
T. W. Odom
Publication date: 6 August 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We observe current rectification in a molecular diode consisting of a semiconducting single-wall carbon nanotube and an impurity. One half of the nanotube has no impurity, and it has a current-voltage (I-V) charcteristic of a typical semiconducting nanotube. The other half of the nanotube has the impurity on it, and its I-V characteristic is that of a diode. Current in the nanotube diode is carried by holes transported through the molecule's one-dimensional subbands. At 77 Kelvin we observe a step-wise increase in the current through the diode as a function of gate voltage, showing that we can control the number of occupied one-dimensional subbands through electrostatic doping.Comment: to appear in Physical Review Letters. 4 pages & 3 figure

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