Condensed Matter (Sep 2020)

Engineering Porous Silicon Nanowires with Tuneable Electronic Properties

  • S. Javad Rezvani,
  • Nicola Pinto,
  • Roberto Gunnella,
  • Alessandro D’Elia,
  • Augusto Marcelli,
  • Andrea Di Cicco

DOI
https://doi.org/10.3390/condmat5040057
Journal volume & issue
Vol. 5, no. 4
p. 57

Abstract

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Structural and electronic properties of silicon nanowires with pre-designed structures are investigated. Wires with distinct structure were investigated via advanced spectroscopic techniques such as X-ray absorption spectroscopy and Raman scattering as well as transport measurements. We show that wire structures can be engineered with metal assisted etching fabrication process via the catalytic solution ratios as well as changing doping type and level. In this way unique well-defined electronic configurations and density of states are obtained in the synthesized wires leading to different charge carrier and phonon dynamics in addition to photoluminescence modulations. We demonstrate that the electronic properties of these structures depend by the final geometry of these systems as determined by the synthesis process. These wires are characterized by a large internal surface and a modulated DOS with a significantly high number of surface states within the band structure. The results improve the understanding of the different electronic structures of these semiconducting nanowires opening new possibilities of future advanced device designs.

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