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Polaronic transport and current blockades in epitaxial silicide nanowires and nanowire arrays.


ABSTRACT: Crystalline micrometer-long YSi2 nanowires with cross sections as small as 1 × 0.5 nm(2) can be grown on the Si(001) surface. Their extreme aspect ratios make electron conduction within these nanowires almost ideally one-dimensional, while their compatibility with the silicon platform suggests application as metallic interconnect in Si-based nanoelectronic devices. Here we combine bottom-up epitaxial wire synthesis in ultrahigh vacuum with top-down miniaturization of the electrical measurement probes to elucidate the electronic conduction mechanism of both individual wires and arrays of nanowires. Temperature-dependent transport through individual nanowires is indicative of thermally assisted tunneling of small polarons between atomic-scale defect centers. In-depth analysis of complex wire networks emphasize significant electronic crosstalk between the nanowires due to the long-range Coulomb fields associated with polaronic charge fluctuations. This work establishes a semiquantitative correlation between the density and distributions of atomic-scale defects and resulting current-voltage characteristics of nanoscale network devices.

SUBMITTER: Iancu V 

PROVIDER: S-EPMC4010140 | biostudies-literature | 2013 Aug

REPOSITORIES: biostudies-literature

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Polaronic transport and current blockades in epitaxial silicide nanowires and nanowire arrays.

Iancu Violeta V   Zhang X-G XG   Kim Tae-Hwan TH   Menard Laurent D LD   Kent P R C PR   Woodson Michael E ME   Ramsey J Michael JM   Li An-Ping AP   Weitering Hanno H HH  

Nano letters 20130802 8


Crystalline micrometer-long YSi2 nanowires with cross sections as small as 1 × 0.5 nm(2) can be grown on the Si(001) surface. Their extreme aspect ratios make electron conduction within these nanowires almost ideally one-dimensional, while their compatibility with the silicon platform suggests application as metallic interconnect in Si-based nanoelectronic devices. Here we combine bottom-up epitaxial wire synthesis in ultrahigh vacuum with top-down miniaturization of the electrical measurement p  ...[more]

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