Year : 2024 | Volume :13 | Issue : 01 | Page : –

Neetu saharan

Neeraj wadhwa

Research Scholar Jaypee Institute of Information Technology Noida Uttar Pradesh India
Professor Jaypee Institute of Information Technology Noida Uttar Pradesh India

Abstract

The widespread use of synthetic plastics poses significant environmental challenges due to their durability and dependence on non-renewable resources. Biodegradable plastics, derived from renewable biological sources, offer a sustainable alternative that can mitigate waste disposal issues and environmental pollution. This paper examines the factors influencing the suitability of bioplastics for various packaging applications and discusses emerging techniques to enhance their properties.
Regarding packaging applications in particular, biodegradable plastics offer a viable substitute for conventional plastics. A class of plastics known as bioplastics is produced using renewable resources such as microorganisms, agricultural waste, or plants. They can be classified as Bio-based plastics derived from renewable biomass sources. They include polymers such as polylactic acid (PLA), polyhydroxyalkanoates (PHA), starch-based plastics, cellulose-based plastics, and protein-based plastics. Fossil-based plastics are derived from fossil fuels like petroleum but can be biodegradable or compostable. They include certain types of biodegradable polyesters and polyolefins. Microorganisms have the ability to break down biodegradable plastics into biomass, carbon dioxide, and water under specific conditions.
. Examples include PLA, PHA, and certain starch-based plastics whereas non-biodegradable bioplastics do not readily decompose into natural elements. This group comprises non-biodegradable bio-based polymers like bio-based polyethylene terephthalate (PET) and bio-based polyethylene (PE).. Each classification has its own set of advantages and limitations, depending on factors like cost, performance, and end-of-life disposal options. The choice of bioplastics depends on the specific application and environmental goals. The use of biodegradable plastics is growing in popularity as an environmentally preferable substitute for conventional plastics derived from petroleum. By addressing aspects like mechanical strength, barrier properties, and biodegradability, bioplastics can fulfill the varied needs of the packaging industry. Emerging techniques like nanocomposites, bioplastic blends, and surface modifications offer pathways to enhance the properties of bioplastics, making them viable for a broader range of applications. Ongoing research and development in this area will be essential for promoting the use of sustainable materials in packaging and diminishing the environmental effects of plastic waste.

Keywords: Bioplastic , Packaging, Starch, Cellulose, Sustainability

[This article belongs to Research & Reviews : Journal of Food Science & Technology(rrjofst)]

How to cite this article: Neetu saharan, Neeraj wadhwa. A Comprehensive Review of Biodegradable Polymers in Sustainable Packaging Applications. Research & Reviews : Journal of Food Science & Technology. 2024; 13(01):-.

How to cite this URL: Neetu saharan, Neeraj wadhwa. A Comprehensive Review of Biodegradable Polymers in Sustainable Packaging Applications. Research & Reviews : Journal of Food Science & Technology. 2024; 13(01):-. Available from: https://journals.stmjournals.com/rrjofst/article=2024/view=152561

References

[1]Andrady A.L., Neal M.A. Applications and societal benefits of plastics, Philos Trans R Soc B: Biol Sci. 2009; 364(1526): 1977–84p.

[2]Ashok A., Mathew M., Rejeesh C.R. Innovative value chain development of modified starch for a sustainable environment: a review, Int J Polym Sci Eng. 2016; 2(1): 20–32p

[3] Thompson R.C., Swan S.H., Moore C.J., et al. Our plastic age, Philos Trans R Soc B: Biol Sci. 2009; 364: 1973–6p.

[4] Flieger M., Kantorová M., Prell A., et al. Biodegradable plastics from renewable sources, Folia Microbiol. 2003; 48(1): 27–44p

[5] Weber C.J., Haugaard V., Festersen R., et al. Production and applications of bio based packaging materials for the food industry, Food Addit Contamin. 2002; 19.

[6] Atik İ.D., Özen B., Tıhmınlıoğlu F. Water vapour barrier performance of corn-zein coated polypropylene (PP) packaging films, J Therm Anal Calorim. 2008; 94(3): 687–93p.

[7]Brown W.E. Plastics in Food Packaging: Properties, Design and Fabrication. New York: Marcel Dekker; 1992, 66–102p.

[8]Satheesh Kumar M.N., Yaakob Z., Siddaramaiah, Biobased materials in food packaging applications, In: Handbook of Bioplastics and Biocomposites EngineeringApplications. Srikanth Pilla (Ed.), 121–59p.

[9]Mensitieri G., Di Maio E., Buonocore G.G., et al. Processing and shelf life issues of selected food packaging materials and structures from renewable resources, Trends

Food Sci Technol. 2011; 22(2-3): 72–80p.

[10] Siracusa, V., Rocculi, P., Romani, S., andDalla Rosa, M. (2008). Biodegradable polymers for food packaging: A review. Trends in Food Science and Technology, 19(12), 634–643.

[11] Jayasekara R, Harding I, Bowater I and Lonergan G (2005). Biodegradability of a selected range of polymers and polymer blends and standard methods for assessment of biodegradation. Journal of Polymer and Environment, 13(3): 231-251.

[12] Sudesh, K., and Iwata, T. (2008). Sustainability of Biobased and Biodegradable Plastics. CLEAN, soil, air, water, 36(5-6), 433-442.

[13] Song, J. H.,Murphy, R. J., Narayan, R. and Davies, G. B. H. (2009). Biodegradable and compostable alternatives to conventional plastics. Philosophical transactions of the Royal Society of London B-Biological Science 364, 2127–2139.

[14] Sorrentino, A., Gorrasi, G. and Vittoria, V. (2007). Potential perspectives of bionanocomposites for food packaging applications. Trends in Food Science and Technology 18, 84–95.

[15] Jain, R., and Tiwari, A. (2015). Biosynthesis of planet friendly bioplastics using renewable carbon source. J. Environ. Heal. Sci. Eng. 13, 11.

[16] Clarinval, A. M., and Halleux, J. (2005). Classification of biodegradable polymers. In: Smith, R.(Ed.), Biodegradable Polymers for Industrial Applications. Cambridge: Woodhead Publishing Ltd, pp. 3–31.

[17] Baastioli C., Cerutti A., Guanella I., et al. Physical state and biodegradation behaviour of starchpolycaprolactone systems, J EnvironPolymDegrad. 1995; 3(2): 81–95p.

[18]Forssell P., Lahtinen R., Lahelin M., et al. Oxygen permeability of amylose and amylopectin films,CarbohydrPolym. 2002; 47: 125–9p

[19].Pandey J.K., Takagi H., Nakagaito A.N., et al. An overview on the cellulose based conducting composites, Compos Part B: Eng. 2012; 43(7): 2822–6p.

[20]Itävaara M., Siika-aho M., Viikari L. Degradation of cellulose acetatebased materials: a review, J PolymEnviron.. 1999; 23(4): 449–58p.

[21] Briassoulis D. An overview on the mechanical behavior of biodegradable agricultural films, JPolym. 2004; 12: 65–81p.

[22] .Ruban S.W. Biobased packaging – application in meat industry, VetWorld. 2009; 2(2): 79–82p.

[23] Jacobsen S., Fritz H.G., Plasticizing polylactide the effect of different plasticizers on the mechanical properties, Polym Eng. 1999; 39: 1303–10p

[24]Yalcin B., Cakmak M., Arkın A.H., et al. Control of optical anisotropy at large deformations in PMMA/chlorinated-PHB (PHB-Cl) blends: mechano-optical behavior, Polymer. 2006; 47(24): 8183–93p.

[25] Modi S., Koelling K., Vodovotz Y. Assessment of PHB with varying hydroxyvalerate content for potential packaging applications, EurPolym J. 2011; 47(2): 179–86p.

[26] Averous, L. and Pollet, E. (2012). Environmental Silicate Nano- Biocomposites. Springer, London Heidelberg, New York Dordrecht,

[27] Whistler, R.L.and BeMiller, J.N. (2007). Starches, modified food starches, and other products from starches. In: BeMiller, J.N. (Ed.), Carbohydrate Chemistry for Food Scientists. American Association of Cereal Chemists, St. Paul, MN, pp. 117_151.www.european-bioplastics.org. (2017).

[28] Yadav, A., Mangaraj, S., Singh, R., Mahanti, N., M and Arora, S. (2018). Biopolymers as packaging material in food and allied industry. International Journal of Chemical Studies, 6 (2): 2411-2418.

[29] Majid, I., Thakur, M. and Nanda, V. (2018). Biodegradable packaging materials. Elsevier Inc.

[30] Morillon V, Debeaufort F, Blond G, Capelle M and Voilley A. (2002). Factors affecting the moisture permeability of lipid-based edible films: a review. Critical Reviews in Food Science and Nutrition, 42(1): 67-89.

[31] Thakur, V.K. and Thakur, M.K. (2016). Handbook of sustainable polymers: Processing and applications; Pan Stanford Publishing: Singapore

[32] Gemili,S., Yemenicioglu, A., and Altinkaya, S. A. (2009). Development of cellulose acetate based antimicrobial food packaging materials for controlled release of lysozyme. Journal of Food Engineering 90, 453–462.

[33] Otles, S. and Otles, S. (2004). Manufacturing of Biobased Packaging Materials for the Food Industry. Acta Sci. Pol Technologia Alimentaria, 3(2):13-17.

[34] Kokoszka, S., Debeaufort, F., Hambleton, A., Lenart, A. and Voilley, A. (2010). Protein and glycerol contents affect physico-chemical properties of soy protein isolate-based edible films. Innov. Food Sci. Emerg. 11, 503–510.

[35] Shukla, P. T. (1992). Trends in Zein Research and Utilization. Cereal Foods World, 37: 225.

Rasal, R.M., Janorkar, A.V., and Hirt, D.E. (2010). Poly(lactic acid) modifications. Progress inPolymer Science, 35, 338- 356.

[36] Rasal, R.M., Janorkar, A.V., and Hirt, D.E. (2010). Poly(lactic acid) modifications. Progress inPolymer Science, 35, 338- 356.

[37] Auras, R., Singh, S. P., and Singh., J.J. (2005). Evaluation of oriented poly (lactide) polymers vs. existing PET and oriented PS for fresh food servicecontainers. Packaging Technology and Science. 18:207-216.

[38] Tharanathan, R. N. (2003). Review – biodegradable films and composite coatings: past, present and future. Trends in Food Science and Technology, 14, 71-78.

[39]Castilho, L.R., Mitchell, D.A. and Freire, D.M.G. (2009). Production of polyhydroxyalkanoates (PHAs) from waste materials and by-products by submerged and solid-state fermentation. Biores. Technol. 100, 5996_6009.

[40] Tripathi, A.D., Srivastava, S.K. and Yadav, A. (2015). Biopolymers: potential biodegradable packaging material for food industry. In: Alavi, S., Thomas, S., Sandeep, K.P., Kalarikkal, N., Varghese, J., Yaragalla, S. (Eds.), Polymers for Packaging Applications. first ed. Apple Academic Press, Oakville, Canada, pp. 153–172.

[41]Freitas, F., Alves, V.D., Reis, M.A., Crespo, J. G. and Coelhoso, I.M. (2014). Microbial polysaccharide-based membranes: Current and future applications. Journal of Applied Polymer Science 131, 40047–40058

[42] Quoc, L., Hoa, D., Ngoc, H.and Phi, T. (2015). Effect of xanthan gum solution on the preservation of acerola. CercetariAgronomiceîn Moldova 48, 89–97.

[43] Scott, G. and Wiles, D.M. (2001). Programmed-life plastics from polyolefins: A new look at sustainability. Biomacromolecules 2, 615–622.

[43] Malgorzata Gumienna, Artur Szwengiel, Barbara Gorna. Bioactive components of pomegranate fruit and their transformation by fermentation processes. European Food Research and Technology. 2016; 242(5): 348.

[44] Chozhavendhan S, Usha P, Sowmiya G, Rohini G. A review on bioplastic production A Need to the Society. International Journal of Pharmaceutical Sciences Review and Research. 2020; 62(1): 27-32.

[45] Pradhan S. Optimization and Characterization of Bioplastic Produced by Bacillus Cereus SE1. National Institute of Technology Rourkela, Odisha. 2014.

[46] Kalia S, Dufresne A, Cherian BM, Kaith BS, Av’erous L, Njuguna J, Nassiopoulos E. Cellulose based bio- and nanocomposites: A review. International Journal of Polymer Science. 2011; 3(3): 1-35.

[47] Shamsuddin IM, Jafar JA, Shawai ASA, Yusuf S, Lateefah M, Aminu I. Bioplastics as Better Alternatives to Petroplastics and Their Role in National Sustainability: A Review. Advances in Bioscience and Bioengineering. 2017; 5(4): 63-40.

[48] Chen YJ. Bioplastic and their role in achieving global sustainability. Journal of Chemical and Pharmaceutical Research. 2014; 6(1): 226-231.

[49] Reddy RL, Reddy VS, Gupta GA. Study of Bioplastics as Green & Sustainable Alternative to Plastics. International Journal of Emerging Technology and Advanced Engineering. 2013; 3(5): 82-89.

[50] Arikan EB, Ozsoy HD. A Review: Investigation of Bioplastics. Journal of Civil Engineering and Architecture. 2015; 9(2): 188-192.

[51] Yu J, Chen LXL. The Greenhouse Gas Emissions and Fossil Energy Requirement of Bioplastics from Cradle to Gate of a Biomass Refinery. Environmental Science and Technology. 2008; 42(18): 6961-6966.

[52] Shivam P. Recent Developments on biodegradable polymers and their future trends. International Research Science Eng. 2016; 4(1): 17-26

[53] Ilyas RA, Sapuan SM, Sanyang ML, Ishak MR. Nanocrystalline cellulose reinforced starch based nanocomposite: A review Conference: 5th postgraduate senior on natural fiber composites. At University Putra Malaysia. 2016; 82-87

[54] Nafisa Jabeen N, Majid I, Nayik GA. Bioplastics and Food Packaging: A Review. Cogent Food & Agriculture. 2015; 42(1): 01-06.

[55] Kumar S, Thakur KS. Bioplastics – Classification, production and their potential food application. Journal of Hill Agriculture. 2017; 8(2): 118-129.

[56] Mehta Varda, Darshan M, Nishith D. Can a Starch Based Plastic Be an option of Environmental Friendly Plastic? Journal of Global Biosciences. 2014; 3(3): 681-685.

[57] Sabbah M, Porta R. Plastic Pollution and the challenge of bioplastics. Journal of Applied Biotechnology & Bioengineering Opinion. 2017; 2(3): 111.

[58] Barker M, Safford R. Industrial uses for crops: Markets for Bioplastics. HGGA. 2009.

[59] Modi VK, Shrives Y, Sharma C, Sen PK, Bohidar SK. Review on Green Polymer Nanocomposite and their Applications. International Journal of Innovative Research in Science, Engineering and Technology. 2014; 3(11): 17651-17656.

[60] Orts WJ, Shey J, Imam SH, Glenn GM, Guttman ME, Revol JF. Application of cellulose microfibrils in polymer nanocomposites. Journal of Polymers and the Environment. 2005; 13(4): 301-306.

[61]Khosravi-DaraniK, Bucci DZ. Application of Poly(hydroxyalkanoate) in Food Packaging: Improvements by Nanotechnology. Chemical and Biochemical Engineering Quarterly. 2015; 29(2): 275-285.

[62] Beucker S, Marscheider-weidemann F. Potentials and Challenges of Bioplastics Insights from a German Survey on “Green” Future markets. In Hilty, L. M., Edelmann, X. and Ruf, A. (Eds.) R’07 World Congress, September 3-5, Davos, Switzerland. St. Gallen: EMPA.2007.

[63] Brodin M, Vallejos M, Tanase M, Chinga-carrasco, G. Lignocellulosics as sustainable resources for production of bioplastics – A Review. Journal of Cleaner Production. 2017; 162(1): 646-664.

Regular Issue Subscription Review Article

Research & Reviews : Journal of Food Science & Technology

ISSN: 2278-2249

Volume	13
Issue	01
Received	May 21, 2024
Accepted	June 28, 2024
Published	June 30, 2024

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