Investigating the Characteristics of Different Types of Oxygen Scavengers in Active Food Packaging

Document Type : Compilation

Authors

1 MSc Student, Department of Food Science and Engineering, Faculty of Agriculture, University of Zanjan, Zanjan, Iran

2 Assistant Professor. Department of Food Science and Technology, Faculty of Agriculture, University of Zanjan, Zanjan, Iran

Keywords

References

  1. Ramos, M., Valdés, A., Mellinas, A. C., & Garrigós, M. C. (2015). "New trends in beverage packaging systems: a review." Beverages, 1(4), 248-272.
  2. Cichello, S. A. (2015). "Oxygen absorbers in food preservation: a review. " Journal of food science and technology, 52(4), 1889-1895.
  3. Dainelli, D., Gontard, N., Spyropoulos, D., Zondervan-van den Beuken, E., & Tobback, P. (2008). "Active and intelligent food packaging: legal aspects and safety concerns." Trends in Food Science & Technology, 19, S103-S112.
  4. Demicheva, M. (2015). "Novel oxygen scavenger systems for functional coatings."
  5. Gustavsson, J., Cederberg, C., Sonesson, U., Van Otterdijk, R., & Meybeck, A. (2011)."Global food losses and food waste (pp. 1-38)." Rome: FAO.
  6. Limbo, S., Uboldi, E., Adobati, A., Iametti, S., Bonomi, F., Mascheroni, E., & Piergiovanni, L. (2013). "Shelf life of case-ready beef steaks (Semitendinosus muscle) stored in oxygen-depleted master bag system with oxygen scavengers and CO 2/N 2 modified atmosphere packaging." Meat science, 93(3), 477-484.
  7. Saranraj, P. (2012). "Microbial spoilage of bakery products and its control by preservatives." International Journal of Pharmaceutical & Biological Archive, 3(1).
  8. Brody, A. L., Strupinsky, E. P., & Kline, L. R. (2001). "Active packaging for food applications." CRC press.
  9. Solovyov, S. E. (2014). "Oxygen scavengers." Kirk-Othmer encyclopedia of chemical technology.

10. Mahajan, K. (2010). Synthesis and characterization of new active barrier polymers (Doctoral dissertation, University of Toledo).

11. Rooney, M. L. (1995). Overview of active food packaging. In Active food packaging (pp. 1-37). Springer US.

12. Brody, A. L., Strupinsky, G. R., & Pruskin, L. R. (1995). "The use of oxygen scavengers and active packaging to reduce oxygen within internal package environments." RUBBRIGHT-BRODY INC EAGAN MN.

13. Coles, R., McDowell, D., & Kirwan, M. J. (Eds.). (2003). "Food packaging technology (Vol. 5)." CRC Press.

14. Lee, S. K., Sheridan, M., & Mills, A. (2005). "Novel UV-activated colorimetric oxygen indicator of materials," 17(10), 2744-2751.

15. Labuza, T. P., & Breene, W. (1989). "Application of ‘active packaging ’technologies for the improvement of shelf-life and nutritional quality of fresh and extended shelf-life foods."In Nutritional Impact of Food Processing (Vol. 43, pp. 252-259). Karger Publishers.

16. Payne, S. R., Durham, C. J., Scott, S. M., & Devine, C. E. (1998). "The effects of non-vacuum packaging systems on drip loss from chilled beef." Meat science, 49(3), 277-287.

17. Kerry, J. P., O’grady, M. N., & Hogan, S. A. (2006). "Past, current and potential utilisation of active and intelligent packaging systems for meat and muscle-based products: A review." Meat science, 74(1), 113-130.

18. Warmbier, H. and M. Wolf, (1976). "Miraflex 7 Scavenger Web." Modern Packaging, 49(38): p. 40-41.

19. Xiao-e, L., Green, A. N., Haque, S. A., Mills, A., & Durrant, J. R. (2004). "Light-driven oxygen scavenging by titania/polymer nanocomposite films." Journal of Photochemistry and Photobiology A: Chemistry, 162(2), 253-259.

20. Altay, P. (2014)." Visible light-active non-metal doped titanium dioxide materials for photocatalytic oxidation (Doctoral dissertation,"Bilkent University).

21. Cruz, R. S., Camilloto, G. P., & dos Santos Pires, A. C. (2012). "Oxygen scavengers: an approach on food preservation. In Structure and Function of Food Engineering." InTech.

22. Mills, A., Doyle, G., Peiro, A. M., & Durrant, J. (2006). "Demonstration of a novel, flexible, photocatalytic oxygen-scavenging polymer film." Journal of Photochemistry and Photobiology A: Chemistry, 177(2), 328-331.

23. Cui, L., Xu, L. P., Tsai, F. C., Zhu, P., Jiang, T., & Yeh, J. T. (2011). "Oxygen depletion properties of glucose-grafted polyethylene resins filled with sodium ascorbate/modified iron compounds." Journal of Polymer Research, 18(6), 1301-1313.

24. Shin, Y., Shin, J., & Lee, Y. S. (2011). "Preparation and characterization of multilayer film incorporating oxygen scavenger." Macromolecular research, 19(9), 869-875.

25. Cooksey, K. (2010). "Oxygen scavenging packaging systems." Encyclopedia Of Polymer Science and Technology.

26. Suppakul, P., Miltz, J., Sonneveld, K., & Bigger, S. W. (2003). "Active packaging technologies with an emphasis on antimicrobial packaging and its applications." Journal of food science, 68(2), 408-420.

27. Tammaji, K., & Harish, B. (2005). "U.S. Patent Application No."11/235,061.

28. Scott, D., & Hammer, F. (1961). "Oxygen-scavenging packet for in-package deoxygenation." Food Technology, 15(2), 99.

29. Andersson, M., Andersson, T., Adlercreutz, P., Nielsen, T., & Hörnsten, E. G. (2002). "Toward an enzymebased oxygen scavenging laminate. Influence of industrial lamination conditions on the performance of glucose oxidase." Biotechnology and bioengineering, 79(1), 37-42.

30. Altieri, C., Sinigaglia, M., Corbo, M. R., Buonocore, G. G., Falcone, P., & Del Nobile, M. A. (2004). "Use of entrapped microorganisms as biological oxygen scavengers in food packaging applications." LWT-Food Science and Technology, 37(1), 9-15.

31. Cruz, R. S., Camilloto, G. P., & dos Santos Pires, A. C. (2012). "Oxygen scavengers: an approach on food preservation." In Structure and Function of Food Engineering. InTech.

32. Gaikwad, K. K., Singh, S., & Lee, Y. S. (2018). "Oxygen scavenging films in food packaging." Environmental Chemistry Letters, 1-16.

Files

History

  • Receive Date: 22 December 2017
  • Revise Date: 20 January 2018
  • Accept Date: 22 May 2018
  • Publish Date: 22 May 2018

Share

How to cite

Statistics