Page 291 - Biodegradable Polyesters

P. 291

References 269

hypes, and claims of biodegradable 23. Raquez,J.-M.,Habibi, Y.,Murariu,M.,
plastics in the marketplace. Bioplas- and Dubois, P. (2013) Prog. Polym. Sci.,
tics Magazine, 4, January 2009, pp. 38, 1504–1542.
4/28–4/31. 24. Rasal, R.M., Janorkar, A.V., and Hirt,
6. BPI (2013) Confused by the terms D.E. (2010) Prog. Polym. Sci., 35,
Biodegradable & Biobased, September 338–356.
20, 2013. 25. Kowalski, A., Duda, A., and Penczek, S.
7. Mohanty, A.K., Misra, M., and Drzal, (2000) Macromolecules, 33, 7359–7370.
L.T. (2002) J. Polym. Environ., 10, 26. Jérôme, C. and Lecomte, P. (2008) Adv.
19–26. Drug Delivery Rev., 60, 1056–1076.
8. Wolf, M.-A., Baitz, M., and Kreissig, 27. Penczek, S., Biela, T., and Duda, A.
J. (2010) in Polymers – Opportunities (2000) Macromol. Rapid Commun., 21,
and Risks II (eds P. Eyerer, M. Weller, 941–950.
and C. Hübner), Springer, Berlin, 28. Drumright, R.E., Gruber, P.R., and
Heidelberg, pp. 1–53. Henton, D.E. (2000) Adv. Mater., 12,
9. Compounding World (2013) Bio-focus 1841–1846.
turns to durability, pp. 31–36. 29. Garlotta, D. (2001) J. Polym. Environ.,
10. Avérous, L. (2008) in Monomers, Poly- 9, 63–84.
mers and Composites from Renewable 30. Baratian, S., Hall, E.S., Lin, J.S., Xu, R.,
Resources (eds B. Mohamed Naceur and and Runt, J. (2001) Macromolecules, 34,
G. Alessandro), Elsevier, Amsterdam, 4857–4864.
pp. 433–450. 31. Stridsberg, K., Ryner, M., and
11. Vert, M., Schwarch, G., and Coudane, Albertsson, A.-C. (2002) Degradable
J. (1995) J. Macromol. Sci. Part A, 32, Aliphatic Polyesters, Springer, Berlin,
787–796. Heidelberg, pp. 41–65.
12. Babu, R., O’Connor, K., and Seeram, R. 32. Ikada, Y., Jamshidi, K., Tsuji, H., and
(2013) Prog. Biomater., 2,8. Hyon, S.H. (1987) Macromolecules, 20,
13. Gandini, A. (2008) Macromolecules, 41, 904–906.
9491–9504. 33. Lim, L.T., Auras, R., and Rubino, M.
14. Groot, W. and Borén, T. (2010) Int. J. (2008) Prog. Polym. Sci., 33, 820–852.
Life Cycle Assess., 15, 970–984. 34. Sasaki, S. and Asakura, T. (2003)
15. Vink, E.T.H., Rábago, K.R., Glassner, Macromolecules, 36, 8385–8390.
D.A., and Gruber, P.R. (2003) Polym. 35. Cartier, L., Okihara, T., Ikada, Y., Tsuji,
Degrad. Stab., 80, 403–419. H., Puiggali, J., and Lotz, B. (2000)
16. Madhavan Nampoothiri, K., Nair, Polymer, 41, 8909–8919.
N.R., and John, R.P. (2010) Bioresour. 36. Zhang, J., Tashiro, K., Tsuji, H., and
Technol., 101, 8493–8501. Domb, A.J. (2008) Macromolecules, 41,
17. John, R., Nampoothiri, K.M., and 1352–1357.
Pandey, A. (2007) Appl. Microbiol. 37. Ikada, Y. and Tsuji, H. (2000) Macro-
Biotechnol., 74, 524–534. mol. Rapid Commun., 21, 117–132.
18. Datta, R. and Henry, M. (2006) 38. Södergård, A. and Stolt, M. (2002) Prog.
J. Chem.Technol.Biotechnol., 81, Polym. Sci., 27, 1123–1163.
1119–1129. 39. Engelberg, I. and Kohn, J. (1991) Bio-
19. Auras, R., Harte, B., and Selke, S. materials, 12, 292–304.
(2004) Macromol. Biosci., 4, 835–864. 40. Tsuji, H. and Ikada, Y. (1995) Polymer,
20. Endo, T. (ed) (2009) Handbook of Ring- 36, 2709–2716.
Opening Polymerization,Wiley-VCH 41. Liu, H. and Zhang, J. (2011) J.
Verlag GmbH & Co. KGaA, pp. 53–63. Polym. Sci.,PartB:Polym.Phys., 49,
21. Inkinen, S., Hakkarainen, M., 1051–1083.
Albertsson, A.-C., and Södergård, 42. Janorkar, A.V., Metters, A.T., and
A. (2011) Biomacromolecules, 12, Hirt, D.E. (2004) Macromolecules, 37,
523–532. 9151–9159.
22. Yoo, D., Kim, D., and Lee, D. (2006) 43. Hartmann, M.H. (1998) in Biopoly-
Macromol. Res., 14, 510–516. mers from Renewable Resources (ed D.

286 287 288 289 290 291 292 293 294 295 296