High-Resolution Spectroscopy in Plasma and Flame

This article is based on a poster originally authored by Oliver Buettel.

Geological specimens and final products are regularly analyzed for major and trace components. Analytical specimens can contain a high volume of dissolved solids. Matrix effects on analytical results commonly occur, and adjustments must be made. A skilled technician is required to correct spectral and non-spectral interference results because of complex sample composition. Uv Vis Instrument

High-Resolution Spectroscopy in Plasma and Flame

Ni 231.604nm ICP-OES spectrum, resolution 6-8pm. Severe interference from Co matrix. (Competitor). Image Credit: Analytik Jena US

Ni 231.604nm ICP-OES spectrum, resolution 2-3pm. Interference completely resolved. Analytik Jena PQ9000 Elite. Image Credit: Analytik Jena US

Ni 232.003nm HR-CS AAS spectrum, resolution 2-3pm. AAS spectra are less complex. Analytik Jena contrAA®. Image Credit: Analytik Jena US

Mo 202.030nm ICP-OES spectrum, resolution 2-3pm. Analytik Jena PQ9000 Elite. Image Credit: Analytik Jena US

V 290.881nm ICP-OES spectrum, resolution 2-3pm. Analytik Jena PQ9000 Elite. Image Credit: Analytik Jena US

Image Credit: Analytik Jena US

.Image Credit: Analytik Jena US

High-resolution spectroscopy eliminates the need for theorizing spectrum evaluation and corrections. PlasmaQuant® and contrAA® facilitate new applications and provide a new level of performance. The Flame HR-CS AAS is a genuine alternative to ICP-OES.

PlasmaQuant® and contrAA® provide exceptional sensitivity and a wide working range, are user-friendly and easy to maintain, and have a proven record of processing the most difficult specimens.

This information has been sourced, reviewed and adapted from materials provided by Analytik Jena US.

For more information on this source, please visit Analytik Jena US.

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