In Situ Produced Bacterial Cellulose Nanofiber-Based Hybrids for Nanocomposites
Kaiyan Qiu,Anil N. Netravali +1 more
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TLDR
In this article, two high-performance bacterial cellulose (BC) nanofiber-based hybrid structures were produced using an in situ self-assembly approach, one with microfibrillated cellulose and another with sisal fiber, by incorporating them in the fermentation media.Abstract:
Two high-performance bacterial cellulose (BC) nanofiber-based hybrid structures were produced using an in situ self-assembly approach, one with microfibrillated cellulose (MFC) and another with sisal fiber, by incorporating them in the fermentation media. The fabricated BC-MFC hybrid and BC-sisal hybrid fibers showed enhanced mechanical properties compared to pure BC and sisal fibers, respectively. Tensile tests indicated BC-MFC hybrid and their nanocomposites fabricated with soy protein isolate (SPI) resin had better tensile properties than corresponding BC and BC-SPI nanocomposites. This was because of the uniform distribution of MFC within the BC nanofiber network structure which reduced the defects such as pores and voids or intersections of the BC nanofibers. BC-sisal hybrid fibrous structures were obtained after BC nanofibers self-assembled on the surface of the sisal fibers during the fermentation. The results of the microbond tests indicated that the BC-sisal hybrid fiber/SPI resin bond strength was higher than the control sisal fiber/SPI resin bond with p value of 0.02 at the significance level of 0.05. Higher bond strength is preferred since it can potentially lead to better tensile properties of the composites. The presented work suggests a novel route to fabricate hybrid nanocomposites with higher functional properties.read more
Citations
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Production of Nanocellulose from Pineapple Leaf Fibers via High-Shear Homogenization and Ultrasonication
TL;DR: In this article, the isolation and characterization of nanocellulose from pineapple leaf fibers (PLF) were carried out using scanning electron microscopy (SEM) and TEM, which showed that the nanofibers after ultrasonication for 60 min showed 40-70 nm diameters.
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Improving bacterial cellulose films by ex-situ and in-situ modifications: A review
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Bacterial cellulose-based composites for biomedical and cosmetic applications: Research progress and existing products.
Bricard Mbituyimana,Li Liu,Weiliang Ye,Biaou O. Ode Boni,Kai Zhang,Jiachuan Chen,Sabu Thomas,Revin Victor Vasilievich,Zhijun Shi,Zhijun Shi,Guang Yang +10 more
TL;DR: A recent review as discussed by the authors highlights the progress in synthesizing BC-based composites and their applications in biomedical fields, such as wound healing, drug delivery, tissue engineering, and cancer treatment.
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Recent Advances in the Synthesis of Nanocellulose Functionalized–Hybrid Membranes and Application in Water Quality Improvement
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