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Charging effects and surface potential variations of Cu-based nanowires

Abstract

The present work reports charging effects and surface potential variations in pure copper, cuprous oxide and cupric oxide nanowires observed by electrostatic force microscopy (EFM) and Kelvin probe force microscopy (KPFM). The copper nanowires were produced by wet synthesis, oxidation into cuprous oxide nanowires was achieved through microwave irradiation and cupric oxide nanowires were obtained via furnace annealing in atmospheric conditions. Structural characterization of the nanowires was carried out by X-ray diffraction, scanning electron microscopy, transmission electron microscopy and energy dispersive X-ray spectroscopy. During the EFM experiments the electrostatic field of the positive probe charged negatively the Cu-based nanowires, which in turn polarized the SiO2 dielectric substrate. Both the probe/nanowire capacitance as well as the substrate polarization increased with the applied bias. Cu2O and CuO nanowires behaved distinctively during the EFM measurements in accordance with their band gap energies. The work functions (WF) of the Cu-based nanowires, obtained by KPFM measurements, yielded WFCuO > WFCu > WFCu2O.

Category

Academic article

Client

  • NORTEM / 197405

Language

English

Author(s)

  • Daniela Nunes
  • Tomás R. Calmeiro
  • Suman Nandy
  • Joana Vaz Pinto
  • Ana Claudia Pimentel
  • Pedro Barquinha
  • Patricia Almeida Carvalho
  • John Walmsley
  • Elvira Fortunato
  • Rodrigo Ferrão Martins

Affiliation

  • NOVA University Lisbon
  • SINTEF Industry / Sustainable Energy Technology
  • Instituto Superior Tecnico
  • University of Lisbon (ULisboa)
  • SINTEF Industry / Materials and Nanotechnology

Year

2016

Published in

Thin Solid Films

ISSN

0040-6090

Publisher

Elsevier

Volume

601

Page(s)

45 - 53

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