Clean Room and Microwave Digestion Techniques: Improvement in Detection Limits for Aluminum Determination by GF-AAS
- 1 September 1988
- journal article
- research article
- Published by SAGE Publications in Applied Spectroscopy
- Vol. 42 (7) , 1302-1306
- https://doi.org/10.1366/0003702884430119
Abstract
A rapid, precise, and accurate method for the determination of aluminum in part-per-billion concentrations in biological materials using graphite-furnace atomic absorption spectroscopy has been developed. In order that the necessary accuracy and precision for the analysis of aluminum in bone and brain tissue could be obtained, reduction of laboratory environmental contributions to the aluminum blank was required. Use of a closed-vessel microwave digestion system and a clean room for sample preparation accomplished this goal by reducing Al concentrations in the digestion blanks from 10 ppb to 1 ppb. Digestion time was decreased from many hours to several minutes, and the amount of acid required for digestion was reduced by 70%. Using less nitric acid improved precision in the analyzed solutions by significantly extending the lifetime and consistency in performance of the graphite tube atomizer.Keywords
This publication has 13 references indexed in Scilit:
- Application of microwave digestion to the analysis of peatThe Analyst, 1987
- Microwave energy for acid decomposition at elevated temperatures and pressures using biological and botanical samplesAnalytical Chemistry, 1986
- Measurement of aluminum in neuronal tissues using electrothermal atomization atomic absorption spectrophotometryAnalytical Chemistry, 1986
- Evaluation of a microwave-oven system for the dissolution of geologic samplesAnalytical Chemistry, 1986
- Closed-vessel microwave dissolution and comprehensive analysis of steel by direct current plasma atomic emission spectrometryAnalytical Chemistry, 1986
- Influence of laboratory environment on the precision and accuracy of trace element analysisAnalytical Chemistry, 1985
- Applications of microwave oven sample dissolution in analysisAnalytical Chemistry, 1984
- A safe method to acid digest small samples of biological tissues for graphite furnace atomic absorption analysis of aluminumBiological Trace Element Research, 1983
- State-of-the-art contamination control techniques for ultratrace elemental analysisJournal of Radioanalytical and Nuclear Chemistry, 1982
- Determination of aluminium in biological tissue by flameless atomic absorption spectrometryAnalytica Chimica Acta, 1976