Functional group analysis of starches reacted with urea-phosphoric acid—Correlation of wet chemical measures with FT Raman spectroscopy

•Ammonium starch phosphate carbamates with varying substitution degrees were prepared.•Substitution degrees of different functionalities were correlated with Raman spectra.•Strong correlations exist between substitution degrees and Raman features.•Raman method allows a simultaneous quantification of...

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Veröffentlicht in:Carbohydrate polymers 2017-07, Vol.168, p.356-364
Hauptverfasser: Passauer, Lars, Bender, Hans
Format: Artikel
Sprache:eng
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Zusammenfassung:•Ammonium starch phosphate carbamates with varying substitution degrees were prepared.•Substitution degrees of different functionalities were correlated with Raman spectra.•Strong correlations exist between substitution degrees and Raman features.•Raman method allows a simultaneous quantification of different starch substituents. Because the degree of substitution (DS) of chemically modified starches strongly affects their physicochemical properties and applications, rapid techniques for its determination are crucial. In the present work, ammonium starch phosphates carbamates (SPC) were obtained by reacting starch with urea-phosphoric acid. DS of phosphate (DSP), carbamate (DSC), and ammonium groups (DSNH4+) and contents of non-hydrolyzable amides (Nnh) of SPC were determined using the vanadomolybdophosphoric acid and saponification methods, respectively. It was the aim to investigate the extent to which Raman features of SPC relate to their DS values of different functional groups as obtained by wet chemistry. Strong linear correlations (R2=0.967…0.995) were found between DSP, DSNH4+, and the degree of substitution of urea (DSurea) and Raman signals at 820, 1710 and 1015cm−1. Thus, with appropriate calibration, Raman spectroscopy is a promising tool for the simultaneous and rapid determination of the level of phosphorylation and the ammonium and urea contents of SPC.
ISSN:0144-8617
1879-1344
DOI:10.1016/j.carbpol.2017.03.094