Developing nanocellulose-loaded chitosan–polylactic acid biofilms for green food packaging

Syed, Murtaza Haider; Khan, Md Maksudur Rahman; Zahari, Mior Ahmad Khushairi Mohd; Beg, Mohammad Dalour Hossen; Abdullah, Norhayati

doi:10.1680/jgrma.24.00057

Green Materials

2024

DOI: 10.1680/jgrma.24.00057

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Developing nanocellulose-loaded chitosan–polylactic acid biofilms for green food packaging

Murtaza Haider Syed,

Md Maksudur Rahman Khan,

Mior Ahmad Khushairi Mohd Zahari

et al.

Abstract: The food industry is considered one of the main contributors to plastic waste due to packaging. Sustainable and degradable packaging solutions are the need of the hour. Biopolymers have proved to be a promising replacement for petroleum-based polymers. The main reason is their various intrinsic properties, such as antimicrobial nature and degradability. The main objective of this study was to develop chitosan/nanocrystalline cellulose- and polylactic acid-based biofilms. The biofilms were developed using the d… Show more

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Optimization of solvent system for chitosan/polylactic acid/nanocellulose nanofibers using needleless electrospinning

Syed,

Khan,

Zahari

et al. 2024

J of Applied Polymer Sci

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Needless electrospinning (NES) is the most advanced and robust method to generate biopolymeric nanofibers. NES overcomes the needle clogging and low throughput issues of conventional needle based electrospinning (ES). However, the issue with all ES techniques is the absence of generalized methods in the literature, and most of the work is being done empirically. The solvent system dictates the feasibility of the ES process, and solvent system based studies can help create more generalized ES methods. The current work provides a systematic approach to fabricating tribiopolymeric nanofibers. NES was used to fabricate chitosan (CS)/polylactic acid (PLA)/nanocellulose (NCC) based nanofibers by optimizing the solvent system using dichloromethane (DCM) and trifluoroacetic acid (TFA). Biopolymeric blend PLA/CS/NCC (10:0.1:0.05 w/v %) in various formulated solvent systems were made and analyzed for their physical properties (sedimentation rate, particle size, viscosity, and surface tension) and subjected to NES. The binary solvent system SS91 (DCM (90):TFA (10) %) showed the lowest sedimentation rate and viscosity while the highest particle size and surface tension, resulting in the beads free nanofibers. The viscosity and surface tension comparison were used to determine a critical point for the feasibility of nanofiber fabrication. Overall, the study showed a systematic approach for fabricating complex tri‐biopolymeric nanofibers in future.

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Optimization of solvent system for chitosan/polylactic acid/nanocellulose nanofibers using needleless electrospinning

Syed,

Khan,

Zahari

et al. 2024

J of Applied Polymer Sci

View full text Add to dashboard Cite

show abstract

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Developing nanocellulose-loaded chitosan–polylactic acid biofilms for green food packaging

Cited by 1 publication

References 48 publications

Optimization of solvent system for chitosan/polylactic acid/nanocellulose nanofibers using needleless electrospinning

Optimization of solvent system for chitosan/polylactic acid/nanocellulose nanofibers using needleless electrospinning

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