Starch thermal transitions comparatively studied by DSC and MTDSC

Fengwei Xie, Wei Chen Liu, Peng Liu, Jun Wang, Peter J. Halley, Long Yu

Research output: Contribution to journalArticlepeer-review

23 Citations (SciVal)

Abstract

The gelatinisation process of waxy starch was studied using both differential scanning calorimetry (DSC) and modulated temperature DSC (MTDSC). It was revealed that the results from the two techniques, especially the onset gelatinisation temperature, were slightly different, which may be due to the MTDSC principle and the mechanism of starch gelatinisation. Thus, it is suggested to avoid using MTDSC alone in the characterisation of starch thermal transitions especially in a quantitative way. However, MTDSC has the advantage in understanding the gelatinisation mechanism since it can separate the capacity change (reversible thermal event) from kinetic components (irreversible event). The stepwise change on reversible heat flow measured by MTDSC during gelatinisation was considered due to the phase transition of highly constrained starch polymer chains in granular packing. On the other hand, the glass transition of gelatinised starch (also thermoplastic starch) could not necessarily be detected by conventional DSC or MTDSC. However, by using a high-speed DSC method, the extremely weak glass transition of the gelatinised starch with low moisture content could be enlarged and detected, which confirms the existence of glass transition of the gelatinised starch with low moisture content. This knowledge is helpful in the processing of starch-based foods and polymeric materials.

Original languageEnglish
Pages (from-to)350-357
Number of pages8
JournalStarch/Staerke
Volume62
Issue number7
Early online date22 Jun 2010
DOIs
Publication statusPublished - 6 Jul 2010

Bibliographical note

Funding information:
Dr. Fengwei Xie acknowledges the support by TheUniversityofQueenslandPostdoctoralResearchFellowship, and the ARC, CHPP and CNAFS for DSCequipment funding.

Keywords

  • DSC
  • Gelatinisation
  • Glass transition
  • MTDSC
  • Starch

ASJC Scopus subject areas

  • Food Science
  • Organic Chemistry

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