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Bacterial cellulose nanocrystals with a great difference in aspect ratios: A comparison study of their reinforcing effects on properties of the sodium alginate film

Jin‐Shu Yang, Md Nazmus Saqib, Fei Liu, Fang Zhong

2023Food Hydrocolloids23 citationsDOIOpen Access PDF

Abstract

Cellulose nanocrystal (CNC) incorporation is a practical way to improve the properties of polysaccharide films , and the aspect ratio (L/D) of CNC is a crucial morphological factor affecting its reinforcing effects. In this study, the changes in properties of sodium alginate (SA) films with bacterial CNCs (BCNCs) of great L/D differences were tested and the Young's modulus (E) results of films were compared with predictions from the Halpin–Kardos and Ouali models. At BCNC concentrations ≤0.5 wt%, BCNCs with L/D of 91.45 (BCNC91) and 130.31 (BCNC130) were more effective in reinforcing E than BCNC with L/D of 41.04 (BCNC41). Because AFM and FTIR results confirmed that at this stage, all three BCNCs were well-dispersed, but BCNC91 and BCNC130 formed more new hydrogen bonds with SA than BCNC41. Further increasing BCNC concentrations to 1 wt%–3 wt% continued to enhance E but all BCNCs' reinforcing efficiencies decreased in sync with the formation of BCNC percolation networks and aggregations until efficiency disparities of three BCNCs diminished with all SA-BCNC films' E at around 1800 MPa. The fact that the Halpin–Kardos model described E better than the filler-network-based Ouali model, but still seriously underestimated E at BCNC concentrations ≤3 wt%, was attributed to the greater interfacial area effect produced by nanosized BCNCs than that of the macro-fibers used to develop the Halpin–Kardos model and emphasized the importance of SA-BCNC interactions. Moreover, BCNCs with higher L/D required lower concentrations to significantly reduce films' water vapor permeabilities, and nanocomposites with BCNC130 were more transparent but less UV-light resistant than others.

Topics & Concepts

NanocrystalCelluloseChemical engineeringMaterials scienceBacterial celluloseNanotechnologyChemistryEngineeringAdvanced Cellulose Research StudiesNanocomposite Films for Food PackagingPolysaccharides and Plant Cell Walls
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