References

  1. European Bioplastic, PLA in the Waste Stream, 2020. Available at: https://www.european-bioplastics.org/pla-in-the-wastestream (accessed 14 January 2020)
  2. A. Anstey, S. Muniyasamy, M.M. Reddy, M. Misra, A. Mohanty, Processability and biodegradability evaluation of composites from poly(butylene succinate) (PBS) bioplastic and biofuel co-products from Ontario, J. Polym. Environ., 22 (2014) 209–218.
  3. Y. Lemmouchi, M. Murariu, A.M. Dos Santos, A.J. Amass, E. Schacht, P. Dubois, Plasticization of poly(lactide) with blends of tributyl citrate and low molecular weight poly(D,L-lactide)- b-poly(ethylene glycol) copolymers, Eur. Polym. J., 45 (2009) 2839–2848.
  4. N.K. Kalita, M.K. Nagar, C. Mudenur, A. Kalamdhad, V. Katiyar, Biodegradation of modified poly(lactic acid) based biocomposite films under thermophilic composting conditions, Polym. Test., 76 (2019) 522–536.
  5. M. Sedničková, S. Pekařová, P. Kucharczyk, J. Bočkaj, I. Janigová, A. Kleinová, D. Jochec-Mošková, L. Omaníková, D. Perďochová, M. Koutný, V. Sedlařík, P. Alexy, I. Chodák, Changes of physical properties of PLA-based blends during early stage of biodegradation in compost, Int. J. Biol. Macromol., 113 (2018) 434–442.
  6. D. Kulikowska, K. Bernat, I. Wojnowska-Baryła, R. Jabłoński, Aerobic Degradation of PLA in Thermophilic Conditions, 6th International Environmental Best Practices Conference, Olsztyn, Poland, 22–26.09.2019.
  7. A.E. Greenberg, L.S. Clesceri, A.D. Eaton, Standard Methods for the Examination of Water and Wastewater, 18th ed., APHA, Washington, 1992.
  8. M. Musioł, W. Sikorska, G. Adamus, H. Janeczek, J. Richert, R. Malinowski, G. Jiang, M. Kowalczuk, Forensic engineering of advanced polymeric materials. Part III - Biodegradation of thermoformed rigid PLA packaging under industrial composting conditions, Waste Manage., 52 (2016) 69–76.
  9. E. Rudnik, D. Briassoulis, Degradation behaviour of poly(lactic acid) films and fibres in soil under Mediterranean field conditions and laboratory simulations testing, Ind. Crops Prod., 33 (2011) 648–658.
  10. I. Grizzi, H. Garreau, S. Li, M. Vert, Hydrolytic degradation of devices based on poly(DL-lactic acid) size-dependence, Biomaterials, 16 (1995) 305–311.
  11. S.R. Andersson, M. Hakkarainen, S. Inkinen, A. Södergård, A.-C. Albertsson, Polylactide stereocomplexation leads to higher hydrolytic stability but more acidic hydrolysis product pattern, Biomacromolecules, 11 (2010) 1067–1073.
  12. M.P. Arrieta, J. López, E. Rayón, A. Jiménez, Disintegrability under composting conditions of plasticized PLA–PHB blends, Polym. Degrad. Stab., 108 (2014) 307–318.
  13. R. do Nascimento Silva, T.A. de Oliveira, I.D. da Conceiçăo, L.M. Araque, T.S. Alves, R. Barbosa, Evaluation of hydrolytic degradation of bionanocomposites through Fourier transform infrared spectroscopy, Polímeros, 28 (2018) 348–354.
  14. V. Siracusa, I. Blanco, S. Romani, U. Tylewicz, P. Rocculi, M.D. Rosa, Poly(lactic acid)-modified films for food packaging applications: physical, mechanical and barrier behaviour, J. Appl. Polym. Sci., 125 (2012) E390–E401.
  15. G. Socrates, Infrared and Raman Characteristic Group Frequencies, Tables and Charts, 3rd ed., John Wiley and Sons, Ltd., England, 2001.
  16. R.S. Raghuvanshi, M. Singh, G.P. Talwar, Biodegradable delivery system for single step immunization with tetanus toxoid, Int. J. Pharm., 93 (1993) R1–R5.
  17. A. Torres, S.M. Li, S. Roussos, M. Vert, Chapter 14 – Microbial Degradation of a Poly(Lactic Acid) as a Model of Synthetic Polymer Degradation Mechanisms in Outdoor Conditions, S.H. Imam, R.V. Greene, B.R. Zaidi, Eds., Biopolymers: Utilizing Nature’s Advanced Materials, American Chemical Society, Washington, DC, 1999, p. 218.
  18. V.M. Ghorpade, A. Gennadios, M.A. Hanna, Laboratory composting of extruded poly(lactic acid) sheets, Bioresour. Technol., 76 (2001) 57–61.
  19. E. Castro-Aguirre, R. Auras, S. Selke, M. Rubino, T. Marsh, Enhancing the biodegradation rate of poly(lactic acid) films and PLA bio-nanocomposites in simulated composting through bioaugmentation, Polym. Degrad. Stab., 154 (2018) 46–54.
  20. P. Stloukal, S. Pekarŏva, A. Kalendova, H. Mattausch, S. Laske, C. Holzer, L. Chitu, S. Bodner, G. Maier, M. Slouf, M. Koutny, Kinetics and mechanism of the biodegradation of PLA/clay nanocomposites during thermophilic phase of composting process, Waste Manage., 42 (2015) 31–40.
  21. L. Husárová, S. Pekařová, P. Stloukal, P. Kucharzcyk, V. Verney, S. Commereuc, A. Ramone, M. Koutny, Identification of important abiotic and biotic factors in the biodegradation of poly(L-lactic acid), Int. J. Biol. Macromol., 71 (2014) 155–162.