Effect of silk nano‐disc dispersion on mechanical, thermal, and barrier properties of poly(lactic acid) based bionanocomposites

Patwa, Rahul; Kumar, Amit; Katiyar, Vimal

doi:10.1002/app.46671

Cited by 29 publications

(25 citation statements)

References 42 publications

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“…Inspecting Figure 7 c and d also reveal that both pure PECA and PECA/PPC blends with or without caffeic acid display competitive WVP values compared to conventional polymers such as HDPE, PCL, and PLA. Moreover, OTR values of the blends are superior to common food packaging LDPE films (including improved LDPE films with antioxidants) and reasonably close to PCL, PLA, and chitosan biopolymers [ 65 , 66 , 67 , 68 , 69 , 70 ]. As such, these films can be implemented in food packaging applications either as single-layer films or in combination with other polymers in the future.…”

Section: Resultsmentioning

confidence: 96%

“…All data represent the mean ± SME of three measurements. ( c ) Comparison of water vapor permeability (WVP) and ( d ) oxygen transmission rate with other polymers: high-density polyethyelene (HDPE) [ 64 ], poly(lactic acid) (PLA) [ 67 , 68 ], polycaprolactone (PCL) [ 66 , 69 ], chitosan [ 42 , 66 ], polyhydroxybutyrate (PHB), low-density polyethylene (LDPE), LDPE with 1% wt. of linanool (LDPE*) [ 64 ].…”

Section: Figurementioning

confidence: 99%

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UV-Blocking, Transparent, and Antioxidant Polycyanoacrylate Films

2020

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Applications of cyanoacrylate monomers are generally limited to adhesives/glues (instant or superglues) and forensic sciences. They tend to polymerize rapidly into rigid structures when exposed to trace amounts of moisture. Transforming cyanoacrylate monomers into transparent polymeric films or coatings can open up several new applications, as they are biocompatible, biodegradable and have surgical uses. Like other acrylics, cyanoacrylate polymers are glassy and rigid. To circumvent this, we prepared transparent cyanoacrylate films by solvent casting from a readily biodegrade solvent, cyclopentanone. To improve the ductility of the films, poly(propylene carbonate) (PPC) biopolymer was used as an additive (maximum 5 wt.%) while maintaining transparency. Additionally, ductile films were functionalized with caffeic acid (maximum 2 wt.%), with no loss of transparency while establishing highly effective double functionality, i.e., antioxidant effect and effective UV-absorbing capability. Less than 25 mg antioxidant caffeic acid release per gram film was achieved within a 24-h period, conforming to food safety regulations. Within 2 h, films achieved 100% radical inhibition levels. Films displayed zero UVC (100–280 nm) and UVB (280–315 nm), and ~15% UVA (315–400 nm) radiation transmittance comparable to advanced sunscreen materials containing ZnO nanoparticles or quantum dots. Transparent films also exhibited promising water vapor and oxygen barrier properties, outperforming low-density polyethylene (LPDE) films. Several potential applications can be envisioned such as films for fatty food preservation, biofilms for sun screening, and biomedical films for free-radical inhibition.

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Section: Resultsmentioning

confidence: 96%

Section: Figurementioning

confidence: 99%

UV-Blocking, Transparent, and Antioxidant Polycyanoacrylate Films

2020

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“…These results indicate that nanoparticle can promote the compatibility between the PLA matrix and dispersed phases. It could be expected the organic nanoparticle to act as a bridge between the two immiscible components, leading to a better stress transfer and thus an improvement of the mechanical properties of the materials [42].…”

Section: Thermal Characterizationmentioning

confidence: 99%

Biodegradable Nanocomposites Developed from PLA/PCL Blends and Silk Fibroin Nanoparticles: Study on the Microstructure, Thermal Behavior, Crystallinity and Performance

et al. 2020

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Recently, the use of natural materials has grown in the plastics industry. In this study, silk fibroin nanoparticle (SFNP) was successfully synthesized from silk fibroin (SF) and analyzed by Fourier-transform infrared spectroscopy (FT-IR), X-ray diffraction (XRD), thermogravimetric analysis (TGA), and differential scanning calorimetry (DSC). The obtained results revealed that the well-ordered domains in SF were changed to an amorphous structure in SFNP and it was attributed to the cleavage of SF polypeptide chains upon acid hydrolysis. Then several blends of poly(lactic acid)/poly(Ԑ-caprolactone) (PLA/PCL) containing different amounts of PCL were prepared and characterized. Based on the test results the best properties were achieved in the blend with 30% of PCL. The addition of 1% of SFNP into this blend enhanced the compatibility between PLA and PCL and reduced the PCL droplet size from 1.170±92 μm to 794±46 nm, this was observed by scanning electron microscopy (SEM). Thermal analysis indicated that the presence of SFNP caused an improvement of thermal degradation stability of the PLA/PCL blend in the end set temperature range. The crystallization process also slowed and the crystal growth rate decreased from 0.34 to 0.31 min-1. Additionally, the use of SFNP increased (9.7%) the hardness value and reduced (15.7%) the water vapor permeability value of the PLA/PCL blend. The results of these experiments demonstrated that the prepared PLA/PCL/SFNP green nanocomposites have good potential for the food packaging applications.

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“…Additionally, the tensile strength of LDHs@TA-Ti/PVA nanocomposites continued to increase when the addition of LDHs@TA-Ti was less than 1 wt %. The reason for the increase of tensile strength was due to the strong interfacial interaction and adhesion between the PVA matrix and LDHs@TA-Ti, which hindered the movement of the chain segments and restricted the deformation ability of the chain segments, finally resulting in the enhancement effect, which improved the resistance to the external force [ 35 ]. When the addition of LDHs@TA-Ti exceeded 1 wt %, the tensile strength of LDHs@TA-Ti/PVA nanocomposites began to decrease gradually.…”

Section: Resultsmentioning

confidence: 99%

Mussel-Inspired Approach to Constructing Dual Network Coated Layered Clay for Enhanced Barrier and Antibacterial Properties of Poly(vinyl alcohol) Nanocomposites

Long

Xie

et al. 2020

Polymers

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Inspired by complexation and mussel adhesion of catechol groups in tannic acid (TA), organophilic layered double hydroxides (LDHs@TA-Ti) were synthesized by forming a one-pot assembled TA-titanium (Ti) dual network coating on the surface of layered clay for the first time. LDHs@TA-Ti/poly(vinyl alcohol) (PVA) nanocomposites were prepared by the solution casting method. The results show that TA-Ti(IV) and TiO2 coordination compounds are simultaneously formed due to hydrolysis of titanium tetrachloride and complexation of TA in aqueous solution. Upon TA-Ti coatings onto the surface of LDHs, the antibacterial rate of LDHs@TA-Ti is up to 99.98%. Corresponding LDHs@TA-Ti/PVA nanocomposites also show outstanding antibacterial properties. Compared with pure PVA, LDHs@TA-Ti/PVA nanocomposites show a 40.9% increase in tensile strength, a 17.5% increase in elongation at break, a 35.9% decrease in oxygen permeability and a 26.0% decrease in water vapor permeability when adding 1 wt % LDHs@TA-Ti. UV transmittance (at 300 nm) of LDHs@TA-Ti/PVA nanocomposites decrease by 99.4% when the content of LDHs@TA-Ti reaches 3 wt %. These results indicate that PVA matrix incorporated with LDHs@TA-Ti could be used as a potential active packaging material to extend the shelf life of food products.

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Effect of silk nano‐disc dispersion on mechanical, thermal, and barrier properties of poly(lactic acid) based bionanocomposites

Cited by 29 publications

References 42 publications

UV-Blocking, Transparent, and Antioxidant Polycyanoacrylate Films

UV-Blocking, Transparent, and Antioxidant Polycyanoacrylate Films

Biodegradable Nanocomposites Developed from PLA/PCL Blends and Silk Fibroin Nanoparticles: Study on the Microstructure, Thermal Behavior, Crystallinity and Performance

Mussel-Inspired Approach to Constructing Dual Network Coated Layered Clay for Enhanced Barrier and Antibacterial Properties of Poly(vinyl alcohol) Nanocomposites

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