Gamma irradiation-induced crosslinking and enhanced functionality of fish gelatin-agar edible films

Novianto, Toni D. and Hakim, Arif R. and Pamungkas, Amin and Sedayu, Bakti B. and Putra, Sugili and Yusmaman, Waringin M. (2024) Gamma irradiation-induced crosslinking and enhanced functionality of fish gelatin-agar edible films. Radiation Physics and Chemistry, 224. p. 112074. ISSN 0969806X

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Abstract

Fish gelatin-agar edible films have potential for sustainable food packaging, but their limitations particularly water sensitivity require improvement. In this research, the effects of radiation from gamma rays at rates ranging from 0 to 40 kGy on the films' mechanical characteristics, microstructure, color, opacity, and water resistance were examined. Overall, gamma irradiation at doses of up to 30 kGy substantially improved the water resistance of the gelatin-agar film, as demonstrated by decreased water solubility, water absorption, and film vapor permeability. This could be due to crosslinking within the biopolymer network. However, at doses of 40 kGy, potential chain scission in the film's polymeric structure might occur, which counteracts further improvement and consequently starts degrading its water resistance. Similarly, the improvement of film's tensile strength and modulus of elasticity peaked at an optimal dose of 30 kGy, and then decreased at higher doses, while the film's elongation at break remained unaffected. FTIR and SEM analysis supported changes in functional group and structural morphology in these observations. Although irradiation caused some yellowing, an optimal dose range (at around 20–30 kGy) was identified to achieve improved functionality without degrading film integrity. These findings highlight the potential of gamma irradiation as a viable technique for modifying fish gelatin-agar films for enhanced performance in food packaging applications.

Item Type: Article
Uncontrolled Keywords: Fish gelatin; Agar; Edible films; Gamma irradiation; Crosslinking; Mechanical properties
Subjects: Agriculture & Food > Food Technology
Depositing User: Saepul Mulyana
Date Deposited: 30 Jun 2026 06:06
Last Modified: 30 Jun 2026 06:06
URI: https://karya.brin.go.id/id/eprint/59124

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