AI Article Synopsis
- The study explores Juncus plant fibers as a sustainable source for creating cellulose nanocrystals (CNs) to strengthen polymers.
- CNs were extracted using alkaline and bleaching treatments, followed by sulfuric acid hydrolysis, resulting in four types with varying properties, which positively influenced k-carrageenan (CA) biocomposite films.
- Results showed significant improvements in thermal, transparency, and mechanical properties, particularly with an 8% CN loading, emphasizing the compatibility of CNs with the CA matrix and the benefits of hydrolysis duration on CN characteristics.
Article Abstract
This study investigates the potential of Juncus plant fibers as a renewable source for producing cellulose nanocrystals (CNs) to reinforce polymers. Cellulose microfibers (CMFs) were extracted with a 0.43 ± 0.2 μm diameter and 69 % crystallinity through alkaline and bleaching treatments, then subjected to sulfuric acid hydrolysis, yielding four CN types (CN, CN, CN and CN) with distinct physico-chemical properties and aspect ratios (47, 55, 57, and 60). The study assessed the influence of cellulose nanocrystals (CNs), incorporated at different weight percentages (3 %, 5 %, and 8 %), on thermal, transparency, and mechanical properties in k-carrageenan (CA) biocomposite films. The results indicate significant enhancements in these characteristics, highlighting good compatibility between CNs and CA matrix. Particularly noteworthy is the observed substantial improvement in tensile strength at an 8 wt% loading, with values of 23.43 ± 0.83 MPa for neat CA, 33.53 ± 0.83 MPa for CA-CN, 36.67 ± 0.71 MPa for CA-CN, 37.65 ± 0.56 MPa for CA-CN, and 39.89 ± 0.77 MPa for CA-CN composites. Furthermore, the research explores the connection between the duration of hydrolysis and the properties of cellulose nanocrystals (CNs), unveiling their influence on the characteristics of nanocomposite films. Prolonged hydrolysis enhances CN crystallinity (CrI), aspect ratio, and surface charge content, consequently enhancing mechanical features like strength and flexibility in these films. These findings demonstrate the potential of Juncus plant fibers as a natural and eco-friendly resource for producing CNs that effectively reinforce polymers, making them an attractive option for diverse applications in the field.
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| http://dx.doi.org/10.1016/j.ijbiomac.2024.130892 | DOI Listing |
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