Dual-ultrasound regulation enables co-recovery of pectin and essential oil from pomelo peel and programmable assembly of antimicrobial biodegradable films
Liang Cao, Xiaoxiao Dai, Zhuoyu Liu, Jiahui Xu, Li Huang, Xiaonan Zhang

TL;DR
This paper shows how ultrasound can be used to extract pectin and essential oil from pomelo peel waste to create antimicrobial biodegradable films that extend the shelf life of fresh strawberries.
Contribution
The novel use of dual-ultrasound regulation for co-recovery of pectin and essential oil, and programmable assembly of functional biodegradable films.
Findings
Ultrasound-assisted extraction efficiently co-recovered pectin and essential oil from pomelo peel waste.
The resulting biodegradable film showed good mechanical and optical properties and extended strawberry storage life by nearly five days.
The film's antimicrobial properties were attributed to the essential oil and its response to spoilage-related compounds.
Abstract
Pomelo peel waste was valorized through an ultrasound-assisted integrated strategy to simultaneously recover pectin and essential oil for the fabrication of active biodegradable packaging films. Ultrasonic cavitation significantly promoted cell wall disruption and mass transfer, enabling the efficient co-extraction of pectin and essential oil in a single process. The essential oil was further converted into a stable nanoemulsion via ultrasonic emulsification and incorporated into a pectin/polyvinyl alcohol/carboxymethyl cellulose composite film. The physicochemical, structural, mechanical, and aroma-related properties of the films were systematically characterized by FTIR, XRD, tensile analysis, and electronic nose. The optimized film exhibited balanced mechanical performance with a tensile strength of 6.27 MPa, an elongation at break of 5.52%, and a light transmittance of 43.52%,…
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Taxonomy
TopicsNanocomposite Films for Food Packaging · Advanced Cellulose Research Studies · Polysaccharides and Plant Cell Walls
