David Merchin scite author profile

Carbon nanotube transistors exhibiting high on-state conductance, carrier mobilities, and on−off ratios are achieved using polymer electrolytes as gate media. Nearly ideal gate efficiencies allow operation at very small voltages without the commonly observed problem of hysteresis in back-gated nanotube and nanowire transistors. By varying the electron donating and accepting ability of the chemical groups of the host polymer, unipolar p or n devices or ambipolar transistors that are stable at room temperature in air are also shown to be easily fabricated. With simple methods such as spin casting of polymer films, high-performance polymer electrolyte-gated nanotube transistors may provide useful components for and an alternative route to developing hybrid electronics.

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Photo- and Thermal Annealing-Induced Processes in Carbon Nanotube Transistors

Shim

Siddons

Jeong

et al. 2003

MRS Proc.

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Photoinduced conductivity changes and effects of thermal annealing in carbon nanotube transistors have been examined. Low-intensity ultraviolet light significantly reduces the p-channel conductance while simultaneously increasing the n-channel conductance. A combination of optical absorption and electron transport measurements reveals that these changes occur without variations in dopant concentrations. Measurements with different metals reveal that UV induces oxygen desorption from the electrodes rather than from nanotubes. In Ti-nanotube contact where the Schottky barrier plays an important role, photodesorption of oxygen mainly occurs from the native oxide of Ti electrodes. Decrease in the p-channel conductance arises from the metal work function change which causes larger hole Schottky barrier. Non-Schottky Pd-contacted nanotube transistors do not show photodesorption effects with low intensity UV. Thermal annealing of nanotube transistors with Ti/Au electrodes also leads to the disappearance of the photodesorption effects. However, a noticeable p-doping is observed to upon air exposure after thermal annealing.

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David Merchin

Highly Efficient Gating and Doping of Carbon Nanotubes with Polymer Electrolytes

Photo- and Thermal Annealing-Induced Processes in Carbon Nanotube Transistors

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