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Effect of plasma treatment on improving liquid retention capacity of capillary recesses for food packaging applications

Alaa Alaizoki, Christopher Phillips Orcid Logo, David Parker, Craig Hardwick, Christian Griffiths, Davide Deganello Orcid Logo

Food Packaging and Shelf Life, Volume: 30, Start page: 100759

Swansea University Authors: Alaa Alaizoki, Christopher Phillips Orcid Logo, Christian Griffiths, Davide Deganello Orcid Logo

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DOI (Published version): 10.1016/j.fpsl.2021.100759

Abstract

Liquid residue is a major issue in fresh food packaging, especially for meat products. This work investigates capillary recesses directly integrated into PET packaging film, with targeted plasma treatment of the recesses to enhance their liquid retention capacity. Localised oxygen plasma treatment (...

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Published in: Food Packaging and Shelf Life
ISSN: 2214-2894
Published: Elsevier BV 2021
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa58263
Abstract: Liquid residue is a major issue in fresh food packaging, especially for meat products. This work investigates capillary recesses directly integrated into PET packaging film, with targeted plasma treatment of the recesses to enhance their liquid retention capacity. Localised oxygen plasma treatment (oxygen flow rate: 80 cm3/min, pressure: 0.14 mbar, power: 240 W) of PET recesses introduced polar oxygen groups onto their surface and increased their wettability. It is proposed that the difference in wetting characteristics of the recesses and rest of the packaging surface enhanced the capillary valve effect, which dramatically increased the liquid retention capacity. Untreated recess samples (diameter: 9 mm) had retention capacity of around 0.70 g, which increased to 1.50 g after localised O2 plasma treatment. Even after aging of over 60 days, the plasma-treated recesses maintained the enhanced retention capabilities. The estimated resulting retention capacity of recesses of diameter 9 mm was 2972 ± 62 mL/m2, which is comparable with conventional absorbent pads (3000 mL/m2). This demonstrated the viability of applying plasma treatment in food packaging to effectively isolate any excessive exudate using only the packaging film.
Keywords: PET; Oxygen plasma; Wettability; Capillary valves; Meat exudate
College: Faculty of Science and Engineering
Funders: EPSRC; European Regional Development Fund through the Welsh Government (80708) and the Ser Solar project via Welsh Government
Start Page: 100759

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