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Reduction of Hysteresis for Carbon Nanotube Mobility Measurements Using Pulsed Characterization

We describe a pulsed measurement technique to suppress hysteresis for carbon nanotube (CNT) device measurements in air, vacuum, and over a wide temperature range (80-453 K). Varying the gate pulse width and duty cycle probes the relaxation times associated with charge trapping near the CNT, found to be up to the 0.1-10 s range. Longer off times between voltage pulses enable consistent, hysteresis-free measurements of CNT mobility. A tunneling front model for charge trapping and relaxation is also described, suggesting trap depths up to 4-8 nm for CNTs on SiO2. Pulsed measurements will also be applicable to other nanoscale devices such as graphene, nanowires, and molecular electronics, and could enable probing trap relaxation times in a variety of material system interfaces.

preprint2010arXivOpen access
David EstradaSumit DuttaAlbert LiaoEric Pop
cond-mat.mes-hallcond-mat.mtrl-sci
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David EstradaSumit DuttaAlbert LiaoEric Pop

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