VSi<sub>2</sub> Nanoclusters and Nanoribbons
ORAL
Abstract
We studied the epitaxial growth of VSi2 on Si(111). The films were grown under UHV conditions using e-beam deposition of V on Si(111) substrates and subsequent annealing to temperatures ranging between 600-1100 °C. The films were investigated using in-situ scanning tunneling microscopy (STM), ex-situ atomic force microscopy (AFM), and ex-situ scanning electron microscopy (SEM).
At V coverages much larger than 1 monolayer (ML), we found that VSi2 prefers to grow into 3 types of islands: hexagonal flat clusters, pyramidal hut clusters, and faceted hut clusters. All of which have low aspect ratios. At V coverages around 1 ML, however, we found that VSi2 forms elongated nanoclusters with high aspect ratios and arrays of nanoribbons. In this presentation, we will explore: (1) the role of strain in the growth of these structures; (2) an STM methodology we developed to simultaneously map the topography, work function, and LDOS; and (3) the electronic structure of VSi2 nanoribbons.
At V coverages much larger than 1 monolayer (ML), we found that VSi2 prefers to grow into 3 types of islands: hexagonal flat clusters, pyramidal hut clusters, and faceted hut clusters. All of which have low aspect ratios. At V coverages around 1 ML, however, we found that VSi2 forms elongated nanoclusters with high aspect ratios and arrays of nanoribbons. In this presentation, we will explore: (1) the role of strain in the growth of these structures; (2) an STM methodology we developed to simultaneously map the topography, work function, and LDOS; and (3) the electronic structure of VSi2 nanoribbons.
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Presenters
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Valent Oldenkotte
University of Twente
Authors
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Valent Oldenkotte
University of Twente
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Stefan Vries
University of Twente
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Kai Sotthewes
University of Twente
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Marko Sturm
University of Twente
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Marcelo Ackermann
University of Twente
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Harold Zandvliet
University of Twente