Szycher M.: “Szycher’s Handbook of Polyurethanes”, Second Edition, Boca Raton, USA 2012.
[2] Berthier J.C.: Technology Engineering Plastic Composite 2009, 3425, 2.
[3] Gallet C., Le Thuaut P.: “Polyureťhanes biosources”, Rhones-Alpes, France 2011, p. 1.
[4] Biermann U., Friedt W., Lang S. et al.: Angewandte Chemie International Edition 2000, 39, 2206.
Crossref :13<2206::AID-ANIE2206>3.0.CO;2-P
[5] Cheng Ding, Avtar S. Matharu: ACS Sustainable Chemistry Engineering 2014, 2, 2217.
Crossref
[6] Lligadas G., Ronda J.C., Galia M., Cádiz V.: Materials Today 2013, 16 (9), 337.
Crossref
[7] Gandini A.: Macromolecules 2008, 41, 9491.
Crossref
[8] Petrovic Z.S.: Polymer Reviews 2008, 48, 109.
Crossref
[9] Meier M.A.R., Metzger J.O., Schubert U.S.: Chemical Society Reviews 2007, 36, 1788.
[10] Guner F.S., Yagci Y., Erciyes A.T.: Progress in Polymer Science 2006, 31, 633.
Crossref
[11] Nayak P.L.: Journal of Macromolecular Science: Part C: Polymer Reviews 2000, 40, 1.
Crossref
[12] Lligadas G., Ronda J.C., Galia M., Cadiz V.: Biomacromolecules 2010, 11, 2825.
Crossref
[13] Choi K.K., Park S.H., Oh K.W., Kim S.H.: Macromolecular Research 2015, 23 (4), 333.
Crossref
[14] Zhang J., Jiang L., Zhu L. et al.: Biomacromolecules 2006, 7, 1551.
Crossref
[15] Zhang C., Kessler M.R.: ACS Sustainable Chemistry Engineering 2015, 3, 743.
Crossref
[16] Guo A., Javni I., Petrovic Z.: Journal of Applied Polymer Science 2000, 77, 467.
Crossref :2<467::AID-APP25>3.0.CO;2-F
[17] Campanella A., Bonnaillie L.M., Wool R.P.: Journal of Applied Polymer Science 2009, 112, 2567.
Crossref
[18] Kurańska M., Prociak A., Kirpluks M., Cabulis U.: Composites Science and Technology 2013, 75, 70.
Crossref
[19] Datta J., Głowinska E.: Industrial Crops and Products 2014, 61, 84.
Crossref
[20] Zhang C., Madbouly S.A., Kessler M.R.: ACS Applied Materials and Interfaces 2015, 7, 1226.
Crossref
[21] Kalita H., Karak N.: Journal of Applied Polymer Science 2014, 131, 39 579.
Crossref
[22] Gogoi S., Karak N.: ACS Sustainable Chemistry and Engineering 2014, 2, 2730.
Crossref
[23] Kong X., Liu G., Qi H., Curtis J.M.: Progress in Organic Coatings 2013, 76, 1151.
Crossref
[24] Rajput S.D., Mahulikar P.P., Gite V.V.: Progress in Organic Coatings 2014, 77, 38.
Crossref
[25] Pan Y., Zhan J., Pan H. et al.: ACS Sustainable Chemistry Engineering 2016, 4, 1431.
Crossref
[26] Yakushin V., Misane M., Bikovens O. et al.: Journal of Coatings Technology and Research 2016, 13 (2), 317.
Crossref
[27] Ibrahim S., Ahmad A., Mohamed N.S.: Bulletin of Materials Science 2015, 38 (5), 1155.
Crossref
[28] Zhang L., Jeon H.K., Malsam J. et al.: Polymer 2007, 48, 6656.
Crossref
[29] Hill K.: Pure and Applied Chemistry 2000, 72, 1255.
Crossref
[30] Tan J.H., Wang X.P., Tai J.J. et al.: eXPRESS Polymer Letters 2012, 6, 588.
Crossref
[31] Nohra B., Candy L., Blanco J.F. et al.: Macromolecules 2013, 46, 3771.
Crossref
[32] Auguścik M., Waśniewski B., Krzyżowska M. et al.: Polimery 2015, 60, 551.
Crossref
[33] Ribeiro da Silva V., Mosiewicki M.A., Yoshida M.I. et al.: Polymer Testing 2013, 32, 438.
Crossref
[34] Jiao L., Xiao H., Wang Q., Sun J.: Polymer Degradation and Stability 2013, 98, 2687.
Crossref
[35] Zhang C.: “Elastic Degradable Polyurethane for Biomedical Application”, UM Microform, ProQuest LCC, 2006.
[36] Pretsch T., Jakob I., Müller W.: Polymer Degradation and Stability 2009, 94 (1), 61.
Crossref
[37] Stirna U., Sevastyanova I., Misane M. et al.: Proceedings of the Estonian Academy of Sciences. Chemistry 2006, 55 (2), 101.
[38] Kowalczyk K., Kugler S., Spychaj T.: Polimery 2014, 59, 650.
Crossref
Google Scholar