Abstract

Starch and cellulose are two typical natural polymers from plants that have similar chemical structures. The blending of these two biopolymers for materials development is an interesting topic, although how their molecular interactions could influence the conformation and properties of the resultant materials has not been studied extensively. Herein, the rheological properties of cellulose/starch/ZnCl 2 solutions were studied, and the structures and properties of cellulose-starch hybrid films were characterized. The rheological study shows that compared with starch (containing mostly amylose), cellulose contributed more to the solution’s viscosity and has a stronger shear-thinning behavior. A comparison between the experimental and calculated zero-shear-rate viscosities indicates that compact complexes (interfacial interactions) formed between cellulose and starch with ≤50 wt % cellulose content, whereas a loose structure (phase separation) existed with ≥70 wt % cellulose content. For starch-rich hybrid films prepared by compression molding, less than 7 wt % of cellulose was found to improve the mechanical properties despite the reduced crystallinity of the starch; for cellulose-rich hybrid films, a higher content of starch reduced the material properties, although the chemical interactions were not apparently influenced. It is concluded that the mechanical properties of biopolymer films were mainly affected by the structural conformation, as indicated by the rheological results.

Original languageEnglish
Article number474
JournalInternational Journal of Molecular Sciences
Volume20
Issue number3
DOIs
Publication statusPublished - 1 Feb 2019

Funding

Funding: This research was funded by the Pearl River S&T Nova Program of Guangzhou (Grant No. 201610010019), the Natural Science Foundation of Guangdong Province (Project No. 2018A0303130048), the 2018 Open Fund Projects of the Guangxi Provincial Key Laboratory for Polysaccharides Materials and Modification (Grant No. GXPSMM18ZD-02), and the Open Sharing Funds for Instruments of Guangzhou University (Guangzhou Daxue Daxing Shebei Kaifang Gongxiang Jijing). F.X. acknowledges the support of the European Union’s Marie Skłodowska-Curie Actions (MSCA) and the Institute of Advanced Study (IAS), University of Warwick for the Warwick Interdisciplinary Research Leadership Programme (WIRL-COFUND).

FundersFunder number
Guangxi Provincial Key Laboratory for Polysaccharides Materials and ModificationGXPSMM18ZD-02
Guangzhou Daxue Daxing Shebei Kaifang Gongxiang Jijing
Open Sharing Funds for Instruments of Guangzhou University
WIRL-COFUND
Multiple Sclerosis Center of Atlanta
Institute for Advanced Study
Horizon 2020 Framework Programme713548
H2020 Marie Skłodowska-Curie Actions
University of Warwick
Natural Science Foundation of Guangdong Province2018A0303130048
Pearl River S and T Nova Program of Guangzhou201610010019

    Keywords

    • Cellulose-starch blend films
    • Compression molding
    • Crystallinity
    • Mechanical properties
    • Morphology
    • Natural polymers
    • Polysaccharides
    • Rheological properties
    • Solution casting
    • ZnCl solution

    ASJC Scopus subject areas

    • Catalysis
    • Molecular Biology
    • Spectroscopy
    • Computer Science Applications
    • Physical and Theoretical Chemistry
    • Organic Chemistry
    • Inorganic Chemistry

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