Synthesis of Biodegradable Polymer-Based on Starch for Packaging Films: A Review
DOI:
https://doi.org/10.31643/2024/6445.22Keywords:
Polymers, biodegradability, packaging, plastic bags.Abstract
Due to their crucial qualities and functionalities, polymers have received a lot of attention in recent years as food packaging materials. These characteristics include non-toxicity, ease of availability, biocompatibility, and biodegradability, showing their promise as an alternative to traditional plastic packaging, which has long been under investigation for its environmental impact. Given the present emphasis on sustainable development, research into biopolymers as eco-friendly and sustainable food packaging materials is critical. The synthesis of biodegradable polymers-based on starch represents a significant stride towards sustainable packaging solutions. As the global demand for eco-friendly materials continues to grow, ongoing research and innovation in this field are poised to lead to the development of starch-based packaging films with improved properties and widespread commercial applications. As a result, the primary goal of this review is to create a biodegradable polymer based on corn-starch and PVA with strong physicomechanical characteristics for usage in plastic bags.
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References
Volkova TG. Destructible microbial polyhydroxyalkanoates as a technical analogue of indestructible polyolefins. Journal of the Siberian Federal University. Biology. 2015; 8(2):131-151.
UNEP (Piece ed Nations Environmental Program). 2004. The African 10-Year Framework Programme (10YFP) on Sustainable Consumption and Production. http://www.unep.org/ru/Projects_Programmes/10YFP/index.asp. Accessed April 2010.
Scott G. Degradable polymers. Principles and applications. Nederlands: Kluwer Academic Publ. 2002,500.
Potapov AG, Parmon VN. Biodegradable polymers –forward to the future.Ecology and industry of Russia. 2010; 5:4-8.
Kaza Silpa, Yao Lisa C,Bhada-Tata Perinaz,Van Woerden Frank. What a Waste 2.0: A Global Snapshot of Solid Waste Management to 2050. Urban Development; Washington, DC: World Bank. 2018. https://openknowledge.worldbank.org/handle/10986/30317 License: CC BY 3.0 IGO
mln tonn tverdykh bytovykh otkhodov nakopilos v Kazakhstane[125 million tons of solid household waste have accumulated in Kazakhstan]. (Electron resource). 2021. https://www.inform.kz/ru/125-mln-tonn-tverdyh-bytovyh-othodov-nakopilos-v-kazahstane_a3800662
Kongjan P, O-Thong S, Angelidaki I. Performance and microbial community analysis of two-stage process with extreme thermophilic hydrogen and thermophilic methane production from hydrolysate in UASB reactors.Bioresour. Technol. 2011; 102:4028–4025.
The source of this information is the letter written by Tim Krupnik of the Berkeley Ecology Center to Dr A. N. Bhat of the Indian Centre for Plastic in the Environment (ICPE), supporting the attempt to ban disposable plastics in India, on 15 March 2001. Courtesy Bharati Chaturvedi, Director, Chintan Environmental Organisation, New Delhi.
Gordon SH,Imam SH,Greene RV.Starch-based plastics-measurement of biodegradability. In J. C. Salamone (Ed.), Boca Raton: CRC Press, Polymeric materials encyclopedia. 1996, 7885–7901.
Strength of biodegradable polypropylene flat tapes filled with modified starch. Mechanics of composite materials. 2006; 42(3):389-400.
Sherieva ML, Shustov GB, Beslaneeva ZL. Biodegradable compositions based on high-density polyethylene and starch.Plastic masses. 2007; 8:46-48.
Bazunova MV,Bakirova ER, Bazunova AA, Kulish EI, Zakharov VP. The study of biodegradation of biodegradable polymer composites based on primary and secondary polyolefins and natural fillers of plant origin.Bulletin of the Technological University. 2018; 21(1):43-46.
Suvorova AI, Tyukova IS, Trufanova EI. Biodegradable polymer materials based on starch.Uspekhi khimii. 2000; 69(5):494-504.
Lyubimtseva EC,Chursin VI. Multicomponent biopolymer compositions and films based on them.E.C. Lyubimtseva, Design and technologies. 2017; 57(99):6573.128
Iskalieva A,Yesmurat M,Al Azzam KM,Ainakulova D,Yerbolat Y,Negim E-S,Ibrahim MNM,Gulzhakhan Y. Effect of Polyethylene Glycol Methyl Ether Methacrylate on the Biodegradability of Polyvinyl Alcohol. Starch Blend Films. Polymers.2023; 15:3165. https://doi.org/10.3390/polym15153165
Ermolovich OA, Makarevich AV. The effect of the additives of the compatibilizer on the technological and operational characteristics of biodegradable materials based on starch-filled polyethylene. Journal of Applied Chemistry. 2006; 79(9):1542-1547.
KrutkoET, ProkopchukNR, GlobaAI.Technology of biodegradable polymer materials: studies-method.manual Chemical technology of organic substances, materials and products. Technology of plastic masses. Minsk: BSTU.2014, 105.
Vlasov SV, Olkhov AA. Biodegradable polymer materials.Polymer materials: products, equipment, technologies. 2006; 7:23-26,2006; 8:35-36,2006; 10:28-33.
Opredeleniye i klassifikatsiya biopolimerov[Biopolymers and promising materials based on them]. (Electron resource). 2017. https://studref.com/694707/tovarovedenie/opredelenie_klassifikatsiya_biopolimerov
Berketova LV, Polkovnikova VA. On the issue of eco-, edible and rapidly decomposing packaging in the food industry. Bulletin of Science and practice. 2020; 6(10):234-243.
Maolin Zhai, Fumio Yoshiib, Tamikazu Kume «Radiation modification of starch-based plastic sheets». Carbohydrate Polymers.2003; 52: 311–317.
Barendswaard W,Litvinov VM,Souren F,Scherrenberg R L,Gondard C,ColemontsC. Crystallinity and Microstructure of Plasticized Poly(vinyl chloride). A 13C and 1H Solid State NMR Study. Macromolecules.1999; 32:167−180.
Felix H Otey, Richard P Westhoff.Biodegradable Films from Starch and Ethylene-Acrylic Acid Copolymer.American Chemical Society, Chicago. 1977; III(A):305-308.
Pat. 2019/0017 Kazakhstan. El-Sayed Negim, Lyazzat Bekbayeva, Mun GA. Biodegradable plastic based on starch.
De MoraesJO, ScheibeA.S, SerenoA, and LaurindoJB.Scale-up of the production of cassava starch based films using tape-casting. Journal of Food Engineering. 2013; 119(4):800-808.[Online]. Available: http://dx.doi.org/10.1016/j.jfoodeng.2013.07.009
WangS, LiC, CopelandL, NiuQ, and WangS.Starch Retrogradation: A Com-prehensive Review. Comprehensive Reviews in Food Science and Food Safety.2015; 14(5):568–585.
PitherRJ.in Encyclopedia of Food Sciences and Nutrition (Second Edition)2003.
MitrusM,and Mo ́scickiL.Thermoplastic Starch.Extrusion-Cooking Techniques: Applications, Theory and Sustainability.2011, 177-189.
IsmailNA, Mohd TahirS, YahyaN, Abdul WahidMF, KhairuddinNE, HashimI, RosliN, andAbdullahMA.Synthesis and characterization of biodegrad-able starch-based bioplastics. Materials Science Forum. 2017; 846:673–678.
Thawien Bourtoom, Manjeet S. Preparation and properties of rice starche-chitosan blend biodegradable film. LWT -Food Science and Technology.2008; 4:1633-1664.
Shogren RL, Fanta GF, Doane WM. Development of starch based plastics–a reexamination of selected polymer systems in historical perspective. Staerke. 1993; 45:276-280.
Doane WM. USDA research on starch-based biodegradable plastics. Staerke.1992; 44:293-295.
Lu DR, Xiao CM, Xu S. Starch-based completely biodegradable polymer materials. Polymer Letters. 2009; 3(6):366-375.
Mani R, Bhattacharya M. Properties of injection moulded blends of starch and modified biodegradable polyesters. European Polymer Journal. 2001; 37:515-526.
Bourtoom T, Chinnan MS. Preparation and properties of rice starch-chitosan blend biodegradable film. LWT-Food Science and Technology. 2008; 41:1633-1641.
Wu Y, Geng F, Chang PR, Yu J, Ma X. Effect of agar on the microstructure and performance of potato starch film. Carbohydrate Polymers. 2009; 76:299-304.
Ghanbarzadeh B, Almasi H, Entezami AA. Physical properties of edible modified starch/carboxymethyl cellulose films. Innovative Food Science & Emerging Technologies. 2010; 11(4):697-702.
Suvorova AI, Tyukova IS, Trufanova EI. Biodegradable starch-based polymeric materials. Russian Chemical Reviews. 2000; 69:451-459.
Gutierrez TJ, Alvarez VA. Properties of native and oxidized corn starch-polystyrene blends under conditions of reactive extrusion using zinc octanoate as a catalyst. React. Funct. Polym. 2017; 112:33-44.
Tharanathan RN. Biodegradable films and composite coatings: past, present and future.Trends in Food Science & Technology. 2003; 14:71-78.
Swin SN, Biswal SM, Nanda PK, Nayak PL. Biodegradable soy-based plastics: opportunities and challenges. Journal of Polymers and Environment. 2004; 12:35-42.
Legonkova O, Melitskova E, Peshekhonova A. The future of biodegradation.Packaging and packaging. 2003; 2:62-63.
Schmidt-Rohr K,SpiessHW. Multidimensional Solid-State NMR and Polymers. Academic Press: London.1994; 9:187-215.
Tang H, Xiong H, Tang S, Zou P. A starch-based biodegradable film modified by nano silicon dioxide. Journal of Applied Polymer Science. 2009; 113(1):34-40.
Mukhiddinov BF, Alikulov FZh, Juraev ShT. Derivatographic study of thermal characteristics of compositions based on technical starch with calcium chloride. Universum: technical sciences. 2022; 2-5(95):48-52.129
Mirzoerova VA, Mukhamadiev MG. Obtaining biodegradable composite films based on starch and polyvinyl alcohol.Universum: chemistry and biology: electron, scientific. Journal. 2022;11(101). URL: https://7universum.com/ru/nature/archive/item/14511
Morgacheva AA. Hydrogels based on modified polyvinyl alcohol and modified 2-hydroxyethyl starch. Moscow. 2019.
Rath SK, Singh RP. On the characterization of grafted and ungrafted starch, amylose and amylopectin. J Appl Polym Sci. 1998; 7:1795-1810.
Chiellini E, Corti A, D’Antone S, & Solaro R. Biodegradation of poly (vinyl alcohol) based materials. Progress in Polymer Science.2013; 28(6):963-1014. https://doi.org/10.1016/s0079-6700(02)00149-1
Averous L. Biodegradation multiphase systems based on plasticized starch.A review. J Macromol Sci Polym Rev.2004; 44:231-274.
NegimE, RakhmetullayevaR, YeligbayevaG, UrkimbaevaP, PrimzharovaS, KaldybekovD, KhatibJ, MunG, and C W. Improving biodegradability of polyvinyl alcohol-starch blend films for packaging applications. International Journal of Basic and Applied Sciences.2014; 3(3):263-273.
Negim ESM, PI U, Bekbayeva L, BHO M, Mohamad MN, Irmukhametova G, & GA M. Effect of acrylic acid on the mechanical properties of PVA-starch blend films. Egyptian Journal of Chemistry.2020;63(5):1911-1919.
Byrn SR, XuW,Newman AW. Chemical Reactivity in Solid-State Pharmaceuticals. Formulation Implications. Adv. Drug Delivery Rev. 2001; 48:115-136.
ThakurR, PristijonoP, ScarlettCJ, BowyerM, SinghSP, and VuongQV.Starch-based films: Major factors affecting their properties.International Journal of Biological Macromolecules. 2019; 132:1079-1089.[Online]. Available: https://doi.org/10.1016/j.ijbiomac.2019.03.190130
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Copyright (c) 2023 Iskalieva, A., Orazalin, Z., Yeligbayeva, G., Irmukhametova, G., Taburova, S., & Toktar, T.
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