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2 article(s) from Haluska, Miroslav

Electrical contacts to individual SWCNTs: A review

Wei Liu,
Christofer Hierold and
Miroslav Haluska

Beilstein J. Nanotechnol. 2014, 5, 2202–2215, doi:10.3762/bjnano.5.229

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Figure 1: Contact geometries: (a) side-bonded and (b) end-bonded contact configurations.

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Figure 2: The role of the Fermi level pinning effect at the metal–semiconductor interface. a) Simulation of b...

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Figure 3: The energy band diagram of a CNFET. a) The band bending effect at the metal–SWCNT interface for a m...

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Figure 4: The procedures for determining the Schottky barrier height. (a) CNFET transfer characteristics meas...

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Figure 5: Schematics of different approaches for characterizing the electrical contacts of CNFETs. a) An opti...

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Figure 7: TEM images for (a) metal deposition on suspended, as-grown SWCNTs. Ti displays the best wettability...

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Figure 8: Inspection of the cleanliness of SWCNTs. a) AFM image obtained after developing a PMMA resist from ...

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Figure 9: Improving the contact performance by post-metallization annealing. a) The process of removing conta...

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Review

Published 21 Nov 2014

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Advances in NO₂ sensing with individual single-walled carbon nanotube transistors

Kiran Chikkadi,
Matthias Muoth,
Cosmin Roman,
Miroslav Haluska and
Christofer Hierold

Beilstein J. Nanotechnol. 2014, 5, 2179–2191, doi:10.3762/bjnano.5.227

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Figure 1: Examples of different back-gated device architectures employed for carbon nanotube field-effect tra...

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Figure 2: Effects of NO₂ adsorption on unpassivated nanotube transistors. a) Measurements from Kong et al. [7] s...

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Figure 3: Theoretically calculated adsorption energies for various NO_x–CNT systems. The calculations show wid...

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Figure 4: Response of contact-passivated, pristine suspended carbon nanotube gas sensors. a) Transient respon...

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Figure 5: Hysteretic effects in carbon nanotubes lying on a substrate, as shown by Kim et al. [58] (a, b): a) A C...

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Figure 6: Pulsed gate sweep strategies to eliminate hysteresis in CNFETs [64]. a) Pulsed (p++) gate sweeps show a...

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Figure 7: Hysteresis-free transistors using ultraclean, suspended carbon nanotubes. Gate sweeps for a suspend...

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Figure 8: Drift suppression in suspended carbon nanotubes a) suspended carbon nanotube transistor and b) subs...

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Figure 9: Reduction of 1/f noise in suspended CNFETs. a) The results from Lin et al. [23] show a 10-fold decrease...

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Review

Published 20 Nov 2014

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Electrical contacts to individual SWCNTs: A review

Advances in NO2 sensing with individual single-walled carbon nanotube transistors

Advances in NO₂ sensing with individual single-walled carbon nanotube transistors