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Matusiewicz H. New technology for in situ visualization, monitoring and controlling microwave chemical reaction progress using a focused microwave high pressure-temperature closed-vessel digestion system. Analyst. 2009;134(7):1490-7doi: 10.1039/b901244c.
Matusiewicz, H. (2009). New technology for in situ visualization, monitoring and controlling microwave chemical reaction progress using a focused microwave high pressure-temperature closed-vessel digestion system. The Analyst, 134(7), 1490-7. https://doi.org/10.1039/b901244c
Matusiewicz, Henryk. "New technology for in situ visualization, monitoring and controlling microwave chemical reaction progress using a focused microwave high pressure-temperature closed-vessel digestion system." The Analyst vol. 134,7 (2009): 1490-7. doi: https://doi.org/10.1039/b901244c
Matusiewicz H. New technology for in situ visualization, monitoring and controlling microwave chemical reaction progress using a focused microwave high pressure-temperature closed-vessel digestion system. Analyst. 2009 Jul;134(7):1490-7. doi: 10.1039/b901244c. Epub 2009 Apr 20. PMID: 19562220.
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Analyst. 2009 Jul;134(7):1490-7. doi: 10.1039/b901244c. Epub 2009 Apr 20.

New technology for in situ visualization, monitoring and controlling microwave chemical reaction progress using a focused microwave high pressure-temperature closed-vessel digestion system.

The Analyst

Henryk Matusiewicz

Affiliations

  1. Department of Analytical Chemistry, Politechnika Pozna?ska, 60-965 Pozna?, Poland. [email protected]

PMID: 19562220 DOI: 10.1039/b901244c

Abstract

An experimental model has been developed for studying microwave energy transfer to a sample/solution placed in a high-pressure closed-vessel focused microwave-heated digestion system. The absorption of microwave radiation with a frequency of 2.45 GHz in sample solutions was studied as a function of the efficiency of sample decomposition by measuring the incident and reflected power, temperature and pressure. Experimental measurements of incident/reflected power were carried out with a microwave detector for one type of reagent classically used in wet digestion techniques, namely nitric acid. HNO3 had been chosen as a digesting reagent to reduce the complexity of the observations to a single power-absorbing component. Results obtained by examining pressure, temperature, incident and reflected power graphs were compared with treatment efficiencies determined by measuring total organic carbon variation, arsenobetaine and arsenic content as well as trace element (Cu, Fe, Mn, Zn) recovery in the digests. The reflected power of a sample after microwave-assisted digestion was successfully used as an indicator to evaluate the digestion efficiency. Methodology was developed using the powdered biological certified reference material (DORM-2).

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