Properties enhancement of <scp>chitosan‐filled</scp> polylactic acid biocomposites using tannic acid treatment

Kamaludin, Nor Helya Iman; Ismail, Hanafi; Rusli, Arjulizan; Sam, Sung Ting

doi:10.1002/pc.26354

Cited by 11 publications

(4 citation statements)

References 61 publications

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“…Compared to synthetic fibers (e.g., glass fiber), natural fiber has been thought to be an efficient and a cost‐effective material to modify PLA's properties. [ 8,9 ] The mechanical properties of these ecofriendly PLA/nature fiber composites can be comparable with those of reinforced by glass fibers. [ 10,11 ] In previously published studies, fiber content, the aspect ratio of fibers and interfacial adhesion were critical factors for short fiber‐reinforced plastic composites.…”

Section: Introductionmentioning

confidence: 99%

Nonisothermal crystallization behavior and mechanical properties of poly(lactic acid)/ramie fiber biocomposites

Hao

Chen

et al. 2022

Polymer Composites

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Poly(lactic acid) (PLA) and PLA/natural fiber composites are considered as environmentally friendly materials and are becoming one of the research hotspots.Many research achievements of PLA and its composites prefer to focus on modification and the macro-properties of composites while there are few works on relationships between processing, structures, and properties. The ramie fiber (RF) reinforced PLA biological composites were prepared and PLA/RF injectionmolded samples were fabricated to investigate effects of RF percentage (0, 5 wt% RF, 10 wt% RF, 15 wt% RF, 20 wt% RF) on PLA crystallization, thermal and mechanical performance by experimental and numerical methods. Experimental and simulated results indicate that the RF serves as a kind of nucleation agent, accelerates the crystallization rate, shortens the half crystallization time of PLA. The degree of crystallinity is up to 16.2% when PLA is with 20 wt% RF. The half crystallization time of PLA with 5 wt% RF composite is reduced by up to 28%. Correspondingly, the tensile strength and Young's modulus of the PLA composites are also improved by the RF without sacrificing thermal stability.

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Section: Introductionmentioning

confidence: 99%

Nonisothermal crystallization behavior and mechanical properties of poly(lactic acid)/ramie fiber biocomposites

Hao

Chen

et al. 2022

Polymer Composites

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“…[9] Recently, much research has been done to find renewable, biodegradable and nontoxic alternatives to conventional plastics such as polyethylene, polypropylene, polystyrene, and polyethylene terephthalate. [7,[10][11][12] Therefore, bioplastics such as poly lactic acid, poly butylene succinate and starch have been considered by researchers. [13] Researchers are trying to use low-cost, abundant, and environmentally friendly materials to produce composites for packaging and disposable items.…”

Section: Introductionmentioning

confidence: 99%

Properties and characterization of carrot nanocellulose/starch biopolymer nanocomposites

2022

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In order to produce bio‐nanocomposites for potential food packaging applications, nanocellulose (NC) was extracted from carrot pulp and different weight fractions of NC (5, 7, and 10 wt%) were incorporated into corn starch, either with or without thyme extract, using the solvent casting process. The particle size of the extracted NC (200–300 nm) was determined using the dynamic light scattering test, and field emission scanning electron microscopy confirmed the spherical morphology of the NC, which was successfully extracted from carrot. Fourier transform infrared spectroscopy analysis demonstrated excellent chemical interactions between the starch and NC. According to SEM images of starch‐NC nanocomposites, uniform dispersion of NC into starch was observed for all formulations. Besides, increasing the proportion of NC up to 10 wt% enhanced the tensile strength of starch nanocomposites by 280%. Since the incorporation of NC into starch increased the crystallinity index of the samples, the water absorption capacity and oxygen transmittance rate tests showed that the presence of NC reduced water and oxygen gas diffusion into the starch matrix. Furthermore, thyme‐loaded nanocomposite had remarkable antimicrobial activity, particularly in the case of gram‐positive bacteria (Staphylococcus aureus), as it expanded the bacteria's inhibitory zone by about 10 mm compared with those without an antibacterial agent. Finally, the fabricated bio‐nanocomposites exhibited balanced mechanical characteristics, perfect gas and water barrier properties, as well as promising antibacterial activity for use in the food packaging industry.

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“…But on a global scale, issues related to plastic disposal such as landfilling and incineration have become a threat to the environment and living beings. [ 5 ] It is necessary to find appropriate packaging material to extend the shelf life of mushrooms which also promises zero threats to the environment. Biodegradable polymers are a better replacement for synthetic plastics and can be considered a milestone in preventing global damage.…”

Section: Introductionmentioning

confidence: 99%

Post‐harvest quality and shelf life assessment of Agaricus bisporus influenced by nanocellulose/nanohemicellulose loaded starch based packaging

Louis

Venkatachalam

2022

Polymer Composites

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The post‐harvest shelf life and quality of Agaricus bisporus can be prolonged by effective packaging and storage. This work is an attempt to extend the shelf life and preserve the quality of Agaricus b. through nanocellulose and nanohemicellulose reinforced starch based packaging material. Spherical shaped nanocellulose and nanohemicellulose were isolated from corn cob. Starch nanocomposites were prepared using 0.25%, 0.5%, 0.75%, and 1 wt% of nanocellulose and nanohemicellulose and were characterized. Tailor improved mechanical and reduced water vapor permeability were achieved along with biodegradability. Tensile strength increased to 8.17 ± 0.75 Mpa for nanocellulose and 5.45 ± 0.17 MPa for nanohemicellulose reinforced films. Young's modulus increased significantly to 445.39 ± 8.39 and 106.45 ± 4.55 MPa and a significant decrease in elongtion of the film to 21.30 ± 4.89% and 38.25 ± 1.87% in 0.75% cellulose nanoparticles (CNP) and 0.75% hemicellulose nanoparticles (HNP) reinforced films respectively. Fabricated films were thermally stable with onset degradation at 260 and 280°C for nanocellulose and nanohemicellulose reinforced films. Developed films were used for packing button mushrooms. The results showed that mushrooms packed in fabricated nanoparticle loaded biobased films retained the quality of mushrooms and exhibited better retention in pH, color, firmness than the pure starch film and can be used to preserve the quality of mushroom in refrigerated condition for upto 6 days.

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Properties enhancement of chitosan‐filled polylactic acid biocomposites using tannic acid treatment

Cited by 11 publications

References 61 publications

Nonisothermal crystallization behavior and mechanical properties of poly(lactic acid)/ramie fiber biocomposites

Nonisothermal crystallization behavior and mechanical properties of poly(lactic acid)/ramie fiber biocomposites

Properties and characterization of carrot nanocellulose/starch biopolymer nanocomposites

Post‐harvest quality and shelf life assessment of Agaricus bisporus influenced by nanocellulose/nanohemicellulose loaded starch based packaging

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