Abstract
Soy protein isolate (SPI)-based materials are abundant, biocompatible, renewable, and biodegradable. In order to improve the tensile strength (TS) of SPI films, we prepared a novel composite film modified with microcrystalline cellulose (MCC) and metal nanoclusters (NCs) in this study. The effects of the modification of MCC on the properties of SPI-Cu NCs and SPI-Zn NCs films were investigated. Attenuated total reflectance-Fourier transformed infrared spectroscopy analyses and X-ray diffraction patterns characterized the strong interactions and reduction of the crystalline structure of the composite films. Scanning electron microscopy (SEM) showed the enhanced cross-linked and entangled structure of modified films. Compared with an untreated SPI film, the tensile strength of the SPI-MCC-Cu and SPI-MCC-Zn films increased from 2.91 to 13.95 and 6.52 MPa, respectively. Moreover, the results also indicated their favorable water resistance with a higher water contact angle. Meanwhile, the composite films exhibited increased initial degradation temperatures, demonstrating their higher thermostability. The results suggested that MCC could effectively improve the performance of SPI-NCs films, which would provide a novel preparation method for environmentally friendly SPI-based films in the applications of packaging materials.
Highlights
Driven by environmental problems caused by using petroleum-derived polymers, the demand for the development of eco-friendly materials for agriculture, packaging, and coating industries has greatly increased [1]
In order to further improve the mechanical properties of the protein film, we prepared a novel nanocomposite film modified with microcrystalline cellulose (MCC)
This study showed the preparation of plant-derived biodegradable materials through the casting methodology of Soy protein isolate (SPI) modified with MCC and NCs
Summary
Driven by environmental problems caused by using petroleum-derived polymers, the demand for the development of eco-friendly materials for agriculture, packaging, and coating industries has greatly increased [1]. Due to their renewability and biodegradability, biopolymer materials made from natural resources such as proteins, cellulose, and polysaccharides are regarded as an attractive option in the development of environmentally friendly materials [2]. Soy protein has been extensively investigated for the development of biodegradable films due to its abundance, low cost, biodegradability, and biocompatibility [4,5]. Soy protein isolate (SPI) is a mixture of proteins containing approximately 90% globulins.
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