Abstract
Beyond single molecular transistors, the exploration of device architecture is a central issue in molecular-scale electronics. One of the attractive directions is molecular nanonetwork system, similar to neural networks, by self-assembly. In particular, DNA, which can be regarded as a one-dimensional molecular wire, has attracted much attention as a promising scaffold. The ionic interactions at DNA backbone allow high-density integration of cationic macromolecules. DNA and DNA complexes can be isolated on a solid surface without decomposing and observed in single molecular level by atomic force microscopy. Cytochrome c/DNA complex networks show threshold behavior in current–voltage characteristics that exhibits stochastic resonance as a basis of neural information processing.
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Matsumoto, T. (2017). DNA Molecular Electronics. In: Ogawa, T. (eds) Molecular Architectonics. Advances in Atom and Single Molecule Machines. Springer, Cham. https://doi.org/10.1007/978-3-319-57096-9_5
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DOI: https://doi.org/10.1007/978-3-319-57096-9_5
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