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References: 1. YAO, Si., 2014. Modifying Sodium Bicarbonate for Foaming Polymers. Advanced materials research , 940-940, 59-940. ISSN 10226680. 2. ROHLEDER, Martin., 2016. 2 - Foam Injection Molding . ISBN 0323341004. 3. ISO 5660-1:2002, Reaction-to-fire tests - Heat release, smoke production and mass loss rate - Part 1: Heat release rate (cone calorimeter method) 4. MORGAN, A., 2009. Cone calorimeter testing of S2 glass reinforced polymer composites. Fire and materials [online], 33 (7), 323-344. ISSN 03080501. 5. KU, H., 2011. A review on the tensile

sorbents made by carbonization of synthetic polymers (in Polish). Przemysł Chemiczny 88, 1029-1032. Lorenc-Grabowska, E., Gryglewicz, G. & Machnikowski, J. (2007). Suitability of coal/pitch-PET mixture for activated carbon production. International Conference on Coal Science and Technology, Nottingham. Marzec, M., Tryba, B., Kaleńczuk, R. & Morawski, A. (2001). Active carbons obtained from PET waste for THMS (trihalomethanes) adsorption with water (in Polish). Gaz, Woda i Technika Sanitarna 6, 214-219. Marzec, M., Tryba, B., Kaleńczuk, R. & Morawski, A. (1999

, 33 , 617-626. 4. Rani, K.; Garg, P.; Pundir, C.S. Discrete analysis of bile acid in serum and bile with 3α-hydroxysteroid dehydrogenase and diaphorase immobilized onto alkylamine glass beads. Indian J. Biochem. Biophys. 2006 , 43 , 98-104. 5. Okutucu, B.; Önal, S. Molecularly imprinted polymers for separation of various sugars from human urine. Talanta 2011 , 87 , 74-79. 6. Li, S.; Huang, X.; Zheng, M.; Li, W. Molecularly imprinted polymers: modulating molecular recognition by a thermal phase transition in the binding framework. Anal. Bioanal. Chem . 2008

References 1. Liu, Y., Wang, S. & Hua, J. (2000). Synthesis of complex polymeric flocculant and its application in purifying water. J. App. Polym. Sci. 76, 2093-2097. DOI: 10.1002/(SICI)1097- 4628(20000628)76:14<2093. 2. Chang, Q., Hao, X. & Duan, L. (2008). Synthesis of crosslinked starch-graft-polyacrylamide-co-sodium xanthate and its performance in wastewater treatment. J. Hazard. Mater., 159, 2-3, 548-553. DOI: 10.1016/j.jhazmat.2008.02.053. 3. Churchman, G.J. (2002). Formation of complexes between bentonite and different cationic polyelectrolytes and their

., HENSCHEL, H., WHITCOMBE, M. J., WIKMAN, S., NICHOLLS, I.A.: Molecularly imprinted polymer catalysis of a Diels-Alder reaction. J. Mol. Catal. B: Enzym., 58, 2009, 110 - 117. LI, J., JIANG, F., LI, Y., CHEN, Z.: Fabrication of an oxytetracycline molecularimprinted sensor based on the competition reaction via a GOD-enzymatic amplifier. Biosens. Bioelectron., 26, 2011, 2097 - 2101. LUO, Y., HUANG, P., FU, Q., DU, W., SUN, S., LI, Y., LIU, M., CHANG, CH.: Preparation of monolithic imprinted stationary phase for clenbuterol by in situ polymerization and application in

References ALEKSANDER C., ANDERSSON H. S, ANDERSSON L. I., ANSELL R. J. 2006. Molecular imprinting science and technology: a subway of the literature for the years up to and including. J. Mol. Recognit., 19:106-180. ANDERSSON L. I. 2000. Moleculary imprinting: development and applications in the analytica chemistry field. J. of Chromatogr. B, 745: 3-13. BELTRAN A., MARCE R. M., CORMACK P. A. G., BORRULL F. 2009. Synthesis by precipitation polymerisation of moleculary imprinted polymer microspheres for the selective extraction of cabamazepine and oxacarbamazepine

. Piacente, C. Pizza, F. Franceschi, C. Franz and W. Oleszek, Flavonoids in horse chestnut (Aesculus hippocastanum) seeds and powdered waste water byproducts, J. Agric. Food Chem. 55 (2007) 8485-8490. 9. N. A. Peppas, P. Bures, W. Leobandung and H. Ichikawa, Hydrogels in pharmaceutical formulations, Eur. J. Pharm. Biopharm. 50 (2000) 27-46. 10. N. A. Peppas and R. Langer, New challenges in biomaterials, Science 263 (1994) 1715-1720. 11. B. Narasimhan and N. A. Peppas, Molecular analysis of drug delivery systems controlled by dissolution of the polymer carrier, J. Pharm

References 1. F. Nakayama, T. Yasuda, S. Umeda, M. Asada, T. Imamura, V. Meineke and M. Akashi, Fibroblast growth factor-12 (FGF12) translocation into intestinal epithelial cells is dependent on a novel cellpenetrating peptide domain involvement of internalization in the in vivo role of exogenous FGF12, J. Biol. Chem. 286 (2011) 25823-25834; DOI: 10.1074/jbc.M110.198267. 2. L. M. Ensign, R. Cone and J. Hanes, Oral drug delivery with polymeric nanoparticles: the gastrointestinal mucus barriers, Adv. Drug Deliv. Rev. 64 (2012) 557-570; DOI: 10.1016/j.addr.2011

1 Introduction Development in science and technology is relevant with the production of innovative materials with their specific properties depending on application. Polymers with precisely defined properties play an increasingly important role in the development of modern technology. Especially, the growing interest in thin film coatings deposited on various polymers has been observed. Polymers are frequently used in different application fields, such as biomaterials, adhesive and protective coatings, microelectronic devices, thin-film technology and many others

References 1. Anlar S., Capan Y., Hincal A.A.: Physico-chemical and bio-adhesive properties of polyacrylic acid polymers. Pharmazie, 48, 285, 1993. 2. Shaikh R. et al.: Muco-adhesive Drug Delivery Systems. J. Pharm. Bioall. Sci. 3, 89, 2011. 3. Brunet J. et al.: Angioprotective action of calcium dobesilate against reactive oxygen species-induced capillary permeability in the rat. Eur. J. Pharmacol. 358, 213, 1998. 4. Cuevas P. et al.: Dobesilate is an angiogenesis inhibitor. Eur. J. Med. Res., 10, 369, 2005. 5. Cuevas P. et al.: Topical dobesilate eye drops for