Startseite TG-DTA-FTIR analysis and isoconversional reaction profiles for thermal and thermo-oxidative degradation processes in black chokeberry (Aroniamelanocarpa)
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TG-DTA-FTIR analysis and isoconversional reaction profiles for thermal and thermo-oxidative degradation processes in black chokeberry (Aroniamelanocarpa)

  • Bojan Janković EMAIL logo , Milena Marinović-Cincović und Marija Janković
Veröffentlicht/Copyright: 31. März 2016
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Chemical Papers
Aus der Zeitschrift Chemical Papers Band 70 Heft 8

Abstract

The thermal and thermo-oxidative processes in Aroniamelanocarpa (black chokeberry) were investigated using combined thermo-analytical (TG-DTA) and spectroscopic (FTIR) experimental techniques. Isoconversional analysis revealed that the process in an inert (argon) atmosphere was probably governed by chlorogenic acid degradation, where autocatalysis (described by the empirical Šesták–Berggren model) might occur due to water already present in the early stages of the process through hydrolysis. Thermal degradation is described by the intrinsic kinetic parameters, where the degradation rate increases proportionally with an increase in the heating rate. Under oxidative conditions, the process was found to be primarily driven by neochlorogenic acid degradation. The thermo-oxidative degradation of Aroniamelanocarpa fresh samples can be described by two competitive reactions, where it was established that a cyanidin-3-glucosylrutinoside degradation made a significant contribution to a comprehensive kinetics. This study showed the targeting of the neochlorogenic acid in Aroniamelanocarpa fresh samples to have a strong hydrogen-donating activity, thereby rendering it capable of very efficiently entrapping the peroxy radicals. Current research has demonstrated that the relative contribution of the two competitive reactions to the overall process is highly dependent on the heating rate of the system under consideration.

Key words: black chokeberry thermal stress; TG-FTIR; intrinsic kinetic parameters; autocatalytic mechanism; hydrogen-donating activity; competitive reactions

Acknowledgements

The authors wish to acknowledge the financial support received from the Ministry of Education, Science and Technological Development of the Republic of Serbia (projects nos.172015, 45020 and III43009).

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Received: 2015-9-9
Revised: 2016-1-11
Accepted: 2016-1-23
Published Online: 2016-3-31
Published in Print: 2016-8-1

© 2016 Institute of Chemistry, Slovak Academy of Sciences

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https://doi.org/10.1515/chempap-2016-0046
Schlagwörter für diesen Artikel
black chokeberry thermal stress; TG-FTIR; intrinsic kinetic parameters; autocatalytic mechanism; hydrogen-donating activity; competitive reactions

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