Preparation of Cellulose Fiber Loaded with CuO Nanoparticles for Enhanced Shelf Life and Quality of Tomato Fruit

The present study reports on the preparation of a cellulose fiber (CF) composite from , combined with copper oxide nanoparticles (DL@CF/CuO), to prolong the shelf life of tomatoes after harvest. The isolated cellulose fiber material was comprehensively characterized using XRD, FTIR, and FE-SEM analy...

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Bibliographic Details
Published in:Materials 2024-06, Vol.17 (12), p.2823
Main Authors: Palanisamy, Senthilkumar, Varnan, Nandhana, Venkatachalam, Shanmugam, Kuppuswamy, Kumarakuru, Devi Selvaraju, Gayathri, Ranjith Santhosh Kumar, Devanesan Sanjeevi, Selvakesavan, Rajendran Kamalabai, Bangaru, Gokul, Bharathi, Devaraj
Format: Article
Language:English
Subjects:
Acids
Agricultural wastes
Cellulose
Cellulose fibers
Composite materials
Copper
Copper oxide
Copper oxides
Crystalline cellulose
Cuprite
Dietary fiber
Epidermis
Food supply
Fourier transforms
Fruits
Fungicides
Nanocomposites
Nanoparticles
Packaging
Ripening
Scanning electron microscopy
Shelf life
Tomatoes
Vegetables
Water
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Summary:The present study reports on the preparation of a cellulose fiber (CF) composite from , combined with copper oxide nanoparticles (DL@CF/CuO), to prolong the shelf life of tomatoes after harvest. The isolated cellulose fiber material was comprehensively characterized using XRD, FTIR, and FE-SEM analyses. The DLCF and DL@CF/CuO nanoparticles exhibited crystalline cellulose, as indicated by the XRD investigation. Both DLCF and DL@CF/CuO showed O-H and C-H FTIR spectra with identifiable vibrational peaks. The FE-SEM images depicted the dispersion of DL@CF/CuO-based fibers in a cellulose fiber matrix containing CuO nanoparticles. A 0.3% (wt/wt), a solution of DL@CF/CuO was coated onto the surface of early ripening tomato fruits. After a 25-day storage period at 25-29 °C and 85% RH, the results showed a significant extension in the shelf life of the tomato fruits, in line with changes in physiological properties and fruit quality. The extension of shelf life in tomato fruit epidermis treated with DL@CF/CuO was confirmed through FE-SEM analysis. L929 fibroblast cells were treated with the developed DL@CF/CuO nanocomposite, and no signs of toxicity were detected up to 75 µg/mL. Additionally, the DL@CF/CuO nanocomposite exhibited significant antifungal activity against . In conclusion, this study provides novel insights for sustainable food security and waste control in the agricultural and food industries.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma17122823