Characterization of condensed phase beryllium species in the presence of aluminium and silicon matrices during electrothermal heating on graphite and tungsten platforms

M.A. Castro, A.J. Aller, K. Faulds, D. Littlejohn

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3 Citations (Scopus)

Abstract

Condensed phase beryllium species occurring on graphite and tungsten platforms in the presence of aluminium and silicon matrices were characterised over a wide temperature range. The solid residue was viewed by scanning electron microscopy (SEM), while the chemical composition was probed by energy dispersive (ED) X-ray spectrometry (XRS), Fourier transform-infrared (FT-IR) spectrometry and Raman microanalysis. Beryllium oxide phases were found to be the predominant species over a wide temperature range, persisting up to about 1800 degrees C on the graphite platform. Beryllium metal species were also identified at high temperatures (1500 degrees C), but the transformation of beryllium oxide to beryllium was influenced by the amount and localised behaviour of concomitant species on the platform surface. For graphite platform atomisation, aluminium and silicon concomitants are present as metal oxides. Other silicon species, such as silicon carbide, were found mainly at temperatures above 900 degrees C. Little or no beryllium oxide was found on tungsten platforms up to 1800 degrees C, although there was evidence of some beryllium alloyed to tungsten. Tungsten from the platform supports some hydration forming different tungsten oxidation states (W6+, W5+, W4+). Also, at 900 degrees C, silicon was present as an oxide, but also as elemental silicon, silicon carbide, and silicon alloyed to tungsten forming tungsten disilicide at the surface interface. When tungsten platform atomisation was used for samples containing silicon, evidence of degradation of the graphite tube through formation of carbon clusters and nanostructures was more easily noticeable and evaluated by Raman spectrometry.

Original languageEnglish
Pages (from-to)1722-1732
Number of pages11
JournalJournal of Analytical Atomic Spectrometry
Volume26
Issue number9
Early online date12 May 2011
DOIs
Publication statusPublished - 2011

Keywords

  • atomic-absorption-spectrometry
  • enhanced raman scattering
  • pulsed laser deposition
  • wall carbon nanotubes
  • high melting carbons
  • thin films
  • micro raman
  • oxide films
  • thermodynamic properties
  • thermal stability
  • TIC - Bionanotechnology

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