Development of a Sodium Alginate-Based Active Package with Controlled Release of Cinnamaldehyde Loaded on Halloysite Nanotubes

• Published in: Foods Vol. 10; no. 6; p. 1150
• Main Authors: Cui, Rui, Zhu, Bifen, Yan, Jiatong, Qin, Yuyue, Yuan, Mingwei, Cheng, Guiguang, Yuan, Minglong
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 21.05.2021; MDPI
• Subjects: Active control; Alginic acid; Antibacterial activity; Biocompatibility; Biotechnology industry; Cinnamaldehyde; Controlled release; Food; Food packaging; Food science; halloysite nanotubes; Humidity; Mechanical properties; Nanoparticles; Nanotechnology; Nanotubes; Oils & fats; Packaging materials; release; Sodium; Sodium alginate; Tensile strength; Transmission electron microscopy; Water vapor; United States > US; China
• ISSN: 2304-8158; 2304-8158
• DOI: 10.3390/foods10061150

The worsening environment and the demand for safer food have accelerated the development of new food packaging materials. The objective of this research is to prepare antimicrobial food packaging film with controlled release by loading cinnamaldehyde (CIN) on etched halloysite nanotubes (T-HNTs) and adding it to sodium alginate (SA) matrix. The effects of T-HNTs-CIN on the physical functional properties and antibacterial activity of the film were systematically evaluated, and the release of CIN in the film was also quantified. Transmission electron microscopy and nitrogen adsorption experiments showed that the halloysite nanotubes had been etched and CIN was successfully loaded into the T-HNTs. The addition of T-HNTs-CIN significantly improved the water vapor barrier properties and tensile strength of the film. Similarly, the presence of T-HNTs-CIN in the film greatly reduced the negative effects of ultraviolet rays. The release experiment showed that the diffusion time of CIN in SA/T-HNTs-CIN film to fatty food simulation solution was delayed 144 h compared with that of SA/CIN film. Herein, the antibacterial experiment also confirmed the controlled release effect of T-HNTs on CIN. In conclusion, SA/T-HNTs-CIN film might have broad application prospects in fatty food packaging.