FTIR quantitative analysis of calcium carbonate (calcite) and silica (quartz) mixtures using the constant ratio method. Application to geological samples

A methodology for quantifying calcium carbonate (875 and 712 cm −1) and silica (798 and 779 cm −1) by FTIR spectroscopy applying the constant ratio method is proposed. The studied method is applied for quantitative analysis of calcite and quartz in geological samples. The suggested method uses potas...

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Bibliographic Details
Published inTalanta (Oxford) Vol. 58; no. 4; pp. 811 - 821
Main Authors Reig, F.Bosch, Adelantado, J.V.Gimeno, Moya Moreno, M.C.M
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 16.10.2002
Oxford Elsevier
Subjects
Absorbances correction
Calcite and quartz
Earth sciences
Earth, ocean, space
Exact sciences and technology
FTIR quantitative analysis
Geochemistry
Geological samples
Soil and rock geochemistry
Geological samples
Calcite and quartz
Absorbances correction
FTIR quantitative analysis
Fourier transformation
accuracy
quartz
calcite
carbonates
homogeneity
grain size
granulometry
corrections
silicates
framework silicates
quantitative analysis
chemical analysis methodology
infrared spectroscopy
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Summary:A methodology for quantifying calcium carbonate (875 and 712 cm −1) and silica (798 and 779 cm −1) by FTIR spectroscopy applying the constant ratio method is proposed. The studied method is applied for quantitative analysis of calcite and quartz in geological samples. The suggested method uses potassium ferricyanide (2115 cm −1) as standard and samples are prepared as potassium bromide pellets, with statistically satisfactory results (relative standard deviation less than 5%). The influence of particle size (pulverised samples) on the accuracy of the results found by FTIR spectroscopy applying the constant ratio method has been studied. The granulometric study suggests that the homogeneity of particle size is important. An absorbances correction method is proposed to correct spectral interferences. Due to the fact that most spectra are characterised by a high number of absorbance peaks, spectral interferences may occur so that some peaks cannot be used for quantitative analysis. These interferences can be evaluated and eliminated with the proposed method and the peaks can be used in the analysis.
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ISSN:0039-9140
1873-3573
DOI:10.1016/S0039-9140(02)00372-7