Active coatings of thermoplastic starch and chitosan with alpha-tocopherol/bentonite for special green coffee beans
Autor: | Laura Fonseca Ferreira, Lucas Baldo Luvizaro, Marali Vilela Dias, Mário Guimarães Junior, Bruna Rage Baldone de bLara, Gustavo Henrique Denzin Tonoli, Maria Alice Martins, Cassiano Rodrigues de Oliveira, Luisa Pereira Figueiredo |
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Rok vydání: | 2020 |
Předmět: |
Thermoplastic
Materials science Starch alpha-Tocopherol 02 engineering and technology engineering.material Shelf life Biochemistry Coffee Antioxidants Chitosan Excipients 03 medical and health sciences chemistry.chemical_compound Structural Biology Food Preservation Zeta potential Molecular Biology 030304 developmental biology chemistry.chemical_classification 0303 health sciences Moisture General Medicine 021001 nanoscience & nanotechnology Steam chemistry Bentonite engineering Biopolymer 0210 nano-technology Nuclear chemistry |
Zdroj: | International journal of biological macromolecules. 170 |
ISSN: | 1879-0003 |
Popis: | The quality of green coffee beans (GCBs) is possibly affected by storage conditions. Edible polymer coatings for GCBs can help preserve flavors and improve shelf life of GCBs. This study aimed to incorporate α-tocopherol, a powerful antioxidant, in thermoplastic starch [TPS] and chitosan [TPC] and determined the best cavitation energy (960–3840 J·mL−1) using an ultrasonic probe. Then, we evaluated the incorporation of bentonite (0% and 2% m/m) and α-tocopherol (0% and 10% m/m) in the best energy cavitation/biopolymer combination. The TPS and TPC coatings demonstrated good adherence to the GCBs, measured by surface energy. The dispersion of α-tocopherol in TPC, with cavitation energy 960 J·mL−1, promoted greater stability (greater zeta potential), thereby increasing antioxidant activity by 28% compared to TPS, therefore, was selected for a second stage. Incorporation of 2% bentonite into the TPC, with 10% α-tocopherol, resulted in a 3.7 × 10−10 g·m−1·s−1·Pa−1 water vapor permeability, which is satisfactory for prevented of moisture gain during storage. The compressive load showed values of 375 N to the non-coated GCB and around 475 N with the insertion of coatings to the GCB. Thus, a TPC/α-tocopherol/bentonite combination, dispersed with 960 J·mL−1 energy, was highly effective in the development of biopolymeric coatings for the GCBs. |
Databáze: | OpenAIRE |
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