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Fault tolerant design and analysis of carbon nanotube circuits affixed on DNA origami tiles
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A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
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IEEE Transactions on Nanotechnology, Volume 14, issue 5, pp. 817-877
Abstract
Due to its programmable nature, DNA nanotechnology is currently one of the most advanced and most reliable self-assembly-based methodologies for constructing molecular-scale structures and devices. This makes DNA nanotechnology a highly promising candidate for generating radically new manufacturing technologies. Our specific interest is in the use of DNA as a template and scaffold for the self-assembly of carbon-nanotube field effect transistor (CNFET) circuits. In this paper, we introduced a novel high-level design framework for self-assembling CNFET circuits. According to this methodology, the elements of the circuits, i.e., CNFETs and the connecting carbon nanotube wires, are affixed on different rectangular DNA scaffolds, called tiles, and self-assemble into the desired circuit. The introduced methodology presents several advantages, both at the design level, and for analyzing the reliability of these systems. We make use of these advantages and introduce a new fault-tolerant architecture for CNFET circuits. Then, we analyze its reliability both by computer simulations and by analytical methods.
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VK: Orponen, P.; NC
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Czeizler, E & Orponen, P 2015, 'Fault tolerant design and analysis of carbon nanotube circuits affixed on DNA origami tiles', IEEE Transactions on Nanotechnology, vol. 14, no. 5, pp. 817-877. https://doi.org/10.1109/tnano.2015.2455673