Physicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acid

This work aimed to characterize the starch from arracacha at two phenological stages (S1: twelve months and S2: fourteen months) and assess its potential use blended with polylactic acid (PLA) for thermoplastic starch biodegradable film preparation using the extrusion technique. Arracacha starches s...

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Autores:: Sánchez Riaño, Andrea Milena
Alegría Vivas, Evelyn Melissa
Helga Patricia Bermeo
Bohórquez Pérez, Yanneth
Villada Castillo, Héctor Samuel
Daza, Luis Daniel
Valenzuela Real, Claudia Patricia

Tipo de recurso:: Article of investigation

Fecha de publicación:: 2022

Institución:: Universidad de Ibagué

Repositorio:: Repositorio Universidad de Ibagué

Idioma:: eng

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dc.title.eng.fl_str_mv	Physicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acid
title	Physicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acid
spellingShingle	Physicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acid Película biodegradable - Caracterización fisioquímica Película biodegradable - Caracterización estructural Película biodegradable - Caracterización térmica Bio-based packaging Edible films Polymers Thermoplastic starch Tubers
title_short	Physicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acid
title_full	Physicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acid
title_fullStr	Physicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acid
title_full_unstemmed	Physicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acid
title_sort	Physicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acid
dc.creator.fl_str_mv	Sánchez Riaño, Andrea Milena Alegría Vivas, Evelyn Melissa Helga Patricia Bermeo Bohórquez Pérez, Yanneth Villada Castillo, Héctor Samuel Daza, Luis Daniel Valenzuela Real, Claudia Patricia
dc.contributor.author.none.fl_str_mv	Sánchez Riaño, Andrea Milena Alegría Vivas, Evelyn Melissa Helga Patricia Bermeo Bohórquez Pérez, Yanneth Villada Castillo, Héctor Samuel Daza, Luis Daniel Valenzuela Real, Claudia Patricia
dc.subject.armarc.none.fl_str_mv	Película biodegradable - Caracterización fisioquímica Película biodegradable - Caracterización estructural Película biodegradable - Caracterización térmica
topic	Película biodegradable - Caracterización fisioquímica Película biodegradable - Caracterización estructural Película biodegradable - Caracterización térmica Bio-based packaging Edible films Polymers Thermoplastic starch Tubers
dc.subject.proposal.eng.fl_str_mv	Bio-based packaging Edible films Polymers Thermoplastic starch Tubers
description	This work aimed to characterize the starch from arracacha at two phenological stages (S1: twelve months and S2: fourteen months) and assess its potential use blended with polylactic acid (PLA) for thermoplastic starch biodegradable film preparation using the extrusion technique. Arracacha starches showed high amylose content (25% and 24% for S1 and S2, respectively), which is related to its easy to cook properties, intermediate final viscosity, and the potential for its use as material for biodegradable films preparation. Production of Thermoplastic starch biodegradable films (SF1 and SF2) using arracacha starch blended with polylactic acid as raw materials were successful, the biofilms exhibited low solubility and water vapor permeability, which is due to the hydrophobic nature of polylactic acid, these results indicate its potential use for packaging of foods with intermediate or low water contents. Besides, biodegradable films showed good thermal properties, which are related to the stability of degradation. Arracacha for starch extraction and its use for biodegradable film preparation could be an alternative to add value to this crop. Likewise, the preparation of thermoplastic films using arracacha starch blended with polylactic acid is presented as an alternative to the use of plastic packaging. © 2022, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.
publishDate	2022
dc.date.issued.none.fl_str_mv	2022-10
dc.date.accessioned.none.fl_str_mv	2025-08-20T20:55:53Z
dc.date.available.none.fl_str_mv	2025-08-20T20:55:53Z
dc.type.none.fl_str_mv	Artículo de revista
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dc.identifier.citation.none.fl_str_mv	Sánchez, A., Alegría, E., Bermeo, H., Bohórquez, Y., Villada, H., Daza, L y Valenzuela, C. (2022). Physicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acid. Journal of Food Measurement and Characterization, 16(5), 3597-3606. DOI: 10.1007/s11694-022-01491-2
dc.identifier.doi.none.fl_str_mv	10.1007/s11694-022-01491-2
dc.identifier.uri.none.fl_str_mv	https://hdl.handle.net/20.500.12313/5500
dc.identifier.url.none.fl_str_mv	https://link.springer.com/article/10.1007/s11694-022-01491-2
identifier_str_mv	Sánchez, A., Alegría, E., Bermeo, H., Bohórquez, Y., Villada, H., Daza, L y Valenzuela, C. (2022). Physicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acid. Journal of Food Measurement and Characterization, 16(5), 3597-3606. DOI: 10.1007/s11694-022-01491-2 10.1007/s11694-022-01491-2
url	https://hdl.handle.net/20.500.12313/5500 https://link.springer.com/article/10.1007/s11694-022-01491-2
dc.language.iso.none.fl_str_mv	eng
language	eng
dc.relation.citationendpage.none.fl_str_mv	3606
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dc.relation.citationstartpage.none.fl_str_mv	3597
dc.relation.citationvolume.none.fl_str_mv	16
dc.relation.ispartofjournal.none.fl_str_mv	Journal of Food Measurement and Characterization
dc.relation.references.none.fl_str_mv	D.I. Chan-Matú, V.M. Toledo-López, M. de L.V. y. Vargas, S. Rincón-Arriaga, A. Rodríguez-Félix, T.J. Madera-Santana, J. Food Meas. Charact. 15, 4813 (2021) V.M. Azevedo, S.V. Borges, J.M. Marconcini, M.I. Yoshida, A.R.S. Neto, T.C. Pereira, C.F.G. Pereira, Carbohydr. Polym. 157, 971 (2017) L.D. Daza, A. Homez-Jara, J.F. Solanilla, H.A. Váquiro, Int. J. Biol. Macromol. 120, 1834 (2018) E. Basiak, A. Lenart, F. Debeaufort, Int. J. Biol. Macromol. 98, 348 (2017) S.M. Londoño-Restrepo, N. Rincón-Londoño, M. Contreras-Padilla, B.M. Millan-Malo, M.E. Rodriguez-Garcia, Int. J. Biol. Macromol. 113, 1188 (2018) D. A. N. de E. (DANE), El Cultiv. La Arracacha (Arracacia Xanthorrhiza Bancroft), Hortal. Gd. Bond. Nutr. y Alta Potencialidad Agroindustrial (2015) O.J. Medina, V.O.H. Pardo C, and C.A. Ortiz, Vitae 19, 186 (2012) M.S. Tapia, E. Pérez, P.E. Rodríguez, R. Guzmán, M.N. Ducamp-Collin, T. Tran, A. Rolland-Sabaté, J. Cell. Plast. 48, 526 (2012) P. L. G. O. O.-Y. S. G. L. F. González-Seligraa, 84, 520 (2017) I. Belyamani, F. Prochazka, G. Assezat, J. Food Eng. 121, 39 (2014) M.J. Fabra, M. Martínez-Sanz, L.G. Gómez-Mascaraque, R. Gavara, A. López-Rubio, Carbohydr. Polym. 186, 184 (2018) B. Palai, M. Biswal, S. Mohanty, S.K. Nayak, Ind. Crops Prod. 141, (2019) H. Chi, S. Song, M. Luo, C. Zhang, W. Li, L. Li, Y. Qin, Sci. Hortic. (Amsterdam) 249, 192 (2019) G.A. Arboleda, C.E. Montilla, H.S. Villada, G.A. Varona, Int. J. Polym. Sci. 2015, (2015) R. Turco, R. Ortega-Toro, R. Tesser, S. Mallardo, S. Collazo-Bigliardi, A.C. Boix, M. Malinconico, M. Rippa, M. Di Serio, G. Santagata, Coatings 9, (2019) AOAC, Official Methods of Analysis (16th Ed), 16th ed (Washington DC, 1995) R. Hoover, Carbohydr. Polym. 45, 253 (2001) M.E.E. Franklin, H.A. Pushpadass, B. Kumar, S. Kulkarni, M. Muthurayappa, R. Kandasamy, P. Venkatachalam, P. Vellingiri, Food Hydrocoll. 67, 27 (2017) C. de Barros Mesquita, M. Leonel, C.M.L. Franco, S. Leonel, E.L. Garcia, T.P.R. dos Santos, Int. J. Biol. Macromol. 89, 632 (2016) A. Homez-Jara, L.D. Daza, D.M. Aguirre, J.A. Muñoz, J.F. Solanilla, H.A. Váquiro, Int. J. Biol. Macromol. 113, 1233 (2018) A. Galindez, L.D. Daza, A. Homez-Jara, V.S. Eim, H.A. Váquiro, Carbohydr. Polym. 215, 143 (2019) A. ASTM, Annu. B. Am. Stand. Test. Methods; Am. Soc. Test. Mater. West Conshohocken. PA. USA 8, 182 (2018) A. ASTM, Annu. B. ASTM Stand. Am. Soc. Test. Mater. West Conshohocken, PA, USA 719 (2016) B.C. Maniglia, D.R. Tapia-Blácido, Food Hydrocoll. 55, 47 (2016) O.K. Abegunde, T.H. Mu, J.W. Chen, F.M. Deng, Food Hydrocoll. 33, 169 (2013) M.I. Pinzon, L.T. Sanchez, C.C. Villa, Heliyon 6, (2020) F.H.G. Peroni-Okita, M.B. Cardoso, R.G.D. Agopian, R.P. Louro, J.R.O. Nascimento, E. Purgatto, M.I.B. Tavares, F.M. Lajolo, B.R. Cordenunsi, Carbohydr. Polym. 96, 137 (2013) L. Amagliani, J. O’Regan, A.L. Kelly, J.A. O’Mahony, J. Cereal Sci. 70, 291 (2016) G.F. Nogueira, F.M. Fakhouri, R.A. de Oliveira, Carbohydr. Polym. 186, 64 (2018) I.S.M. Zaidul, N. Norulaini, A.K. Mohd. H. Omar, Yamauchi, T. Noda, Starch/Staerke 59, 269 (2007) E.O. Leidi, A.M. Altamirano, G. Mercado, J.P. Rodriguez, A. Ramos, G. Alandia, M. Sørensen, S.E. Jacobsen, J. Funct. Foods 51, 86 (2018) L. Zhang, G. Li, S. Wang, W. Yao, F. Zhu, Food Chem. 218, 56 (2017) I. Dankar, A. Haddarah, F.E.L. Omar, M. Pujolà, F. Sepulcre, Food Chem. 260, 7 (2018) R. Kizil, J. Irudayaraj, K. Seetharaman, J. Agric. Food Chem. 50, 3912 (2002) K. Guo, L. Lin, X. Fan, L. Zhang, C. Wei, Food Chem. 257, 75 (2018) Z. Ma, X. Yin, X. Hu, X. Li, L. Liu, J.I. Boye, Food Chem. 263, 163 (2018) F.C. Soares, F. Yamashita, C.M.O. Müller, A.T.N. Pires, Polym. Test. 33, 34 (2014) A. Nawab, F. Alam, M.A. Haq, Z. Lutfi, A. Hasnain, Int. J. Biol. Macromol. 98, 869 (2017) R. Thakur, P. Pristijono, J.B. Golding, C.E. Stathopoulos, C. Scarlett, M. Bowyer, S.P. Singh, Q.V. Vuong, Starch/Staerke 70, (2018) C. Valencia-Sullca, M. Vargas, L. Atarés, A. Chiralt, Food Hydrocoll. 75, 107 (2018) J. Muller, C. González-Martínez, A. Chiralt, Mater. (Basel) 10, 1 (2017) M. Zenkiewicz, J. Richert, Polym. Test. 27, 835 (2008) S. Shankar, L.F. Wang, J.W. Rhim, Mater. Sci. Eng. C 93, 289 (2018) C. Medina, T.J. Gutiérrez, S. Goyanes, C. Bernal, L. Famá, Carbohydr. Polym. 151, 150 (2016) S. Sun, P. Liu, N. Ji, H. Hou, H. Dong, Food Hydrocoll. 77, 964 (2018)
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spelling	Sánchez Riaño, Andrea Milenac325daaf-af80-48c7-aab7-489588775eb6-1Alegría Vivas, Evelyn Melissa75453e46-e379-403d-b2f7-ee18f1a2da30-1Helga Patricia Bermeo67e53cc9-cc22-426c-b238-84c82e5a8d01600Bohórquez Pérez, Yanneth1dc80619-4691-48de-8ddb-41a8feb9e3f5-1Villada Castillo, Héctor Samuel2ffa5ca2-82ad-4600-b45e-76320720b59a-1Daza, Luis Danielcd001616-582c-4277-bcf2-db442dca4029-1Valenzuela Real, Claudia Patricia7d6197fd-3e01-49d4-a355-dc8c2da94d57-12025-08-20T20:55:53Z2025-08-20T20:55:53Z2022-10This work aimed to characterize the starch from arracacha at two phenological stages (S1: twelve months and S2: fourteen months) and assess its potential use blended with polylactic acid (PLA) for thermoplastic starch biodegradable film preparation using the extrusion technique. Arracacha starches showed high amylose content (25% and 24% for S1 and S2, respectively), which is related to its easy to cook properties, intermediate final viscosity, and the potential for its use as material for biodegradable films preparation. Production of Thermoplastic starch biodegradable films (SF1 and SF2) using arracacha starch blended with polylactic acid as raw materials were successful, the biofilms exhibited low solubility and water vapor permeability, which is due to the hydrophobic nature of polylactic acid, these results indicate its potential use for packaging of foods with intermediate or low water contents. Besides, biodegradable films showed good thermal properties, which are related to the stability of degradation. Arracacha for starch extraction and its use for biodegradable film preparation could be an alternative to add value to this crop. Likewise, the preparation of thermoplastic films using arracacha starch blended with polylactic acid is presented as an alternative to the use of plastic packaging. © 2022, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.application/pdfSánchez, A., Alegría, E., Bermeo, H., Bohórquez, Y., Villada, H., Daza, L y Valenzuela, C. (2022). Physicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acid. Journal of Food Measurement and Characterization, 16(5), 3597-3606. DOI: 10.1007/s11694-022-01491-210.1007/s11694-022-01491-2https://hdl.handle.net/20.500.12313/5500https://link.springer.com/article/10.1007/s11694-022-01491-2engSpringerEstados Unidos36065359716Journal of Food Measurement and CharacterizationD.I. Chan-Matú, V.M. Toledo-López, M. de L.V. y. Vargas, S. Rincón-Arriaga, A. Rodríguez-Félix, T.J. Madera-Santana, J. Food Meas. Charact. 15, 4813 (2021)V.M. Azevedo, S.V. Borges, J.M. Marconcini, M.I. Yoshida, A.R.S. Neto, T.C. Pereira, C.F.G. Pereira, Carbohydr. Polym. 157, 971 (2017)L.D. Daza, A. Homez-Jara, J.F. Solanilla, H.A. Váquiro, Int. J. Biol. Macromol. 120, 1834 (2018)E. Basiak, A. Lenart, F. Debeaufort, Int. J. Biol. Macromol. 98, 348 (2017)S.M. Londoño-Restrepo, N. Rincón-Londoño, M. Contreras-Padilla, B.M. Millan-Malo, M.E. Rodriguez-Garcia, Int. J. Biol. Macromol. 113, 1188 (2018)D. A. N. de E. (DANE), El Cultiv. La Arracacha (Arracacia Xanthorrhiza Bancroft), Hortal. Gd. Bond. Nutr. y Alta Potencialidad Agroindustrial (2015)O.J. Medina, V.O.H. Pardo C, and C.A. Ortiz, Vitae 19, 186 (2012)M.S. Tapia, E. Pérez, P.E. Rodríguez, R. Guzmán, M.N. Ducamp-Collin, T. Tran, A. Rolland-Sabaté, J. Cell. Plast. 48, 526 (2012)P. L. G. O. O.-Y. S. G. L. F. González-Seligraa, 84, 520 (2017)I. Belyamani, F. Prochazka, G. Assezat, J. Food Eng. 121, 39 (2014)M.J. Fabra, M. Martínez-Sanz, L.G. Gómez-Mascaraque, R. Gavara, A. López-Rubio, Carbohydr. Polym. 186, 184 (2018)B. Palai, M. Biswal, S. Mohanty, S.K. Nayak, Ind. Crops Prod. 141, (2019)H. Chi, S. Song, M. Luo, C. Zhang, W. Li, L. Li, Y. Qin, Sci. Hortic. (Amsterdam) 249, 192 (2019)G.A. Arboleda, C.E. Montilla, H.S. Villada, G.A. Varona, Int. J. Polym. Sci. 2015, (2015)R. Turco, R. Ortega-Toro, R. Tesser, S. Mallardo, S. Collazo-Bigliardi, A.C. Boix, M. Malinconico, M. Rippa, M. Di Serio, G. Santagata, Coatings 9, (2019)AOAC, Official Methods of Analysis (16th Ed), 16th ed (Washington DC, 1995)R. Hoover, Carbohydr. Polym. 45, 253 (2001)M.E.E. Franklin, H.A. Pushpadass, B. Kumar, S. Kulkarni, M. Muthurayappa, R. Kandasamy, P. Venkatachalam, P. Vellingiri, Food Hydrocoll. 67, 27 (2017)C. de Barros Mesquita, M. Leonel, C.M.L. Franco, S. Leonel, E.L. Garcia, T.P.R. dos Santos, Int. J. Biol. Macromol. 89, 632 (2016)A. Homez-Jara, L.D. Daza, D.M. Aguirre, J.A. Muñoz, J.F. Solanilla, H.A. Váquiro, Int. J. Biol. Macromol. 113, 1233 (2018)A. Galindez, L.D. Daza, A. Homez-Jara, V.S. Eim, H.A. Váquiro, Carbohydr. Polym. 215, 143 (2019)A. ASTM, Annu. B. Am. Stand. Test. Methods; Am. Soc. Test. Mater. West Conshohocken. PA. USA 8, 182 (2018)A. ASTM, Annu. B. ASTM Stand. Am. Soc. Test. Mater. West Conshohocken, PA, USA 719 (2016)B.C. Maniglia, D.R. Tapia-Blácido, Food Hydrocoll. 55, 47 (2016)O.K. Abegunde, T.H. Mu, J.W. Chen, F.M. Deng, Food Hydrocoll. 33, 169 (2013)M.I. Pinzon, L.T. Sanchez, C.C. Villa, Heliyon 6, (2020)F.H.G. Peroni-Okita, M.B. Cardoso, R.G.D. Agopian, R.P. Louro, J.R.O. Nascimento, E. Purgatto, M.I.B. Tavares, F.M. Lajolo, B.R. Cordenunsi, Carbohydr. Polym. 96, 137 (2013)L. Amagliani, J. O’Regan, A.L. Kelly, J.A. O’Mahony, J. Cereal Sci. 70, 291 (2016)G.F. Nogueira, F.M. Fakhouri, R.A. de Oliveira, Carbohydr. Polym. 186, 64 (2018)I.S.M. Zaidul, N. Norulaini, A.K. Mohd. H. Omar, Yamauchi, T. Noda, Starch/Staerke 59, 269 (2007)E.O. Leidi, A.M. Altamirano, G. Mercado, J.P. Rodriguez, A. Ramos, G. Alandia, M. Sørensen, S.E. Jacobsen, J. Funct. Foods 51, 86 (2018)L. Zhang, G. Li, S. Wang, W. Yao, F. Zhu, Food Chem. 218, 56 (2017)I. Dankar, A. Haddarah, F.E.L. Omar, M. Pujolà, F. Sepulcre, Food Chem. 260, 7 (2018)R. Kizil, J. Irudayaraj, K. Seetharaman, J. Agric. Food Chem. 50, 3912 (2002)K. Guo, L. Lin, X. Fan, L. Zhang, C. Wei, Food Chem. 257, 75 (2018)Z. Ma, X. Yin, X. Hu, X. Li, L. Liu, J.I. Boye, Food Chem. 263, 163 (2018)F.C. Soares, F. Yamashita, C.M.O. Müller, A.T.N. Pires, Polym. Test. 33, 34 (2014)A. Nawab, F. Alam, M.A. Haq, Z. Lutfi, A. Hasnain, Int. J. Biol. Macromol. 98, 869 (2017)R. Thakur, P. Pristijono, J.B. Golding, C.E. Stathopoulos, C. Scarlett, M. Bowyer, S.P. Singh, Q.V. Vuong, Starch/Staerke 70, (2018)C. Valencia-Sullca, M. Vargas, L. Atarés, A. Chiralt, Food Hydrocoll. 75, 107 (2018)J. Muller, C. González-Martínez, A. Chiralt, Mater. (Basel) 10, 1 (2017)M. Zenkiewicz, J. Richert, Polym. Test. 27, 835 (2008)S. Shankar, L.F. Wang, J.W. Rhim, Mater. Sci. Eng. C 93, 289 (2018)C. Medina, T.J. Gutiérrez, S. Goyanes, C. Bernal, L. Famá, Carbohydr. Polym. 151, 150 (2016)S. Sun, P. Liu, N. Ji, H. Hou, H. Dong, Food Hydrocoll. 77, 964 (2018)© The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2022info:eu-repo/semantics/closedAccesshttp://purl.org/coar/access_right/c_14cbAtribución-NoComercial 4.0 Internacional (CC BY-NC 4.0)https://creativecommons.org/licenses/by-nc/4.0/https://link.springer.com/article/10.1007/s11694-022-01491-2Película biodegradable - Caracterización fisioquímicaPelícula biodegradable - Caracterización estructuralPelícula biodegradable - Caracterización térmicaBio-based packagingEdible filmsPolymersThermoplastic starchTubersPhysicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acidArtículo de revistahttp://purl.org/coar/resource_type/c_2df8fbb1http://purl.org/coar/version/c_970fb48d4fbd8a85Textinfo:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionPublicationLICENSElicense.txtlicense.txttext/plain; charset=utf-8134https://repositorio.unibague.edu.co/bitstreams/9c07cd66-5142-4ea4-aa05-e3a549bf2bfe/download2fa3e590786b9c0f3ceba1b9656b7ac3MD51TEXTArtículo.pdf.txtArtículo.pdf.txtExtracted texttext/plain1588https://repositorio.unibague.edu.co/bitstreams/e7aeb8df-9af8-4233-b7ab-38c8a84dda51/download6d5e5bde2fc6a76e113f2da97f450b69MD52THUMBNAILArtículo.pdf.jpgArtículo.pdf.jpgIM Thumbnailimage/jpeg21752https://repositorio.unibague.edu.co/bitstreams/74de5b5c-06a2-4e79-884f-3daae08bb689/downloada2e56dac965869f92c601f1a403dbb03MD53ORIGINALArtículo.pdfArtículo.pdfapplication/pdf448602https://repositorio.unibague.edu.co/bitstreams/78bafd86-e634-46c5-9b6d-723f46b2e137/download050527f1c52dc6d95e55d280e7c3994cMD5120.500.12313/5500oai:repositorio.unibague.edu.co:20.500.12313/55002025-09-12 11:17:40.056https://creativecommons.org/licenses/by-nc/4.0/© The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2022https://repositorio.unibague.edu.coRepositorio Institucional Universidad de Ibaguébdigital@metabiblioteca.comQ3JlYXRpdmUgQ29tbW9ucyBBdHRyaWJ1dGlvbi1Ob25Db21tZXJjaWFsLU5vRGVyaXZhdGl2ZXMgNC4wIEludGVybmF0aW9uYWwgTGljZW5zZQ0KaHR0cHM6Ly9jcmVhdGl2ZWNvbW1vbnMub3JnL2xpY2Vuc2VzL2J5LW5jLW5kLzQuMC8=

Physicochemical, structural, and thermal characterization of biodegradable film prepared using arracacha thermoplastic starch and polylactic acid

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