Performance Study of Nano/SiO2 Films and the Antimicrobial Application on Cantaloupe Fruit Shelf-Life

In the current study, novel films with chitosan/nano/SiO2/nisin films and their antimicrobial application on cantaloupe fruit shelf-life have been studied. Novel films were prepared by the addition of 1% chitosan, 1% nano silicon dioxide, and 1% nisin and freeze-dried for the performance study. Phys...

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Published inApplied sciences Vol. 11; no. 9; p. 3879
Main Authors Sami, Rokayya, Khojah, Ebtihal, Elhakem, Abeer, Benajiba, Nada, Helal, Mahmoud, Alhuthal, Nawal, Alzahrani, Sana A., Alharbi, Mona, Chavali, Murthy
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 2021
Subjects
Antiinfectives and antibacterials
antimicrobial application
cantaloupe
Chitosan
Coating
Coatings
Contact angle
Fourier analysis
Fourier transforms
Fruits
Hydrophobicity
Microorganisms
nano/SiO2 films
Nanocomposites
Nisin
Packaging
Packaging industry
Particle size
performance study
Physicochemical properties
Relative humidity
Scanning electron microscopy
Shelf life
Silica
Silicon
Silicon dioxide
Software
Spectrum analysis
Tensile strength
Thermal properties
Turbidity
Yeasts
Zeta potential
Saudi Arabia
United Kingdom > UK
United States > US
China
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Summary:In the current study, novel films with chitosan/nano/SiO2/nisin films and their antimicrobial application on cantaloupe fruit shelf-life have been studied. Novel films were prepared by the addition of 1% chitosan, 1% nano silicon dioxide, and 1% nisin and freeze-dried for the performance study. Physicochemical properties such as tensile strength, optical, and thermal properties with the performance characteristics of the novel films were measured. Coated and uncoated cantaloupes with various coating solutions were stored and chilled at 4 °C in a relative humidity of 70% for up to nine days. The microbial population measurements have been detected every three days. Results show that the fourier transform infrared intensity (FTIR) of nano/SiO2 and with the addition of nisin (nano/SiO2/n) were higher than chitosan (CH) film except in the wavenumber (3150–3750 cm−1) films peaks. Novel nanofilms enhanced tensile strength as well as optical and thermal properties. XRD analysis reported two distinct peak values of 32.08 and 45.99 to correspond to nano/SiO2/n film orientation (7095) and (3316), respectively. Zeta potential values and turbidity were increased, while nano/SiO2 films decreased the hydrophobicity of the film surface by 80.07°. The coating treatments with nano/SiO2 and nano/SiO2/n both reduced the yeast and mold counts 2.49 and 1.92 log CFU/g, respectively, on day nine. In summary, chitosan/nano/SiO2/n novel film improved the functional properties of coating films, and those bio-nanocomposites are effective in food packaging.
ISSN:2076-3417
2076-3417
DOI:10.3390/app11093879