Oligomers of poly(anhydride): Study of interaction in coating binder
Polyanhydrides are largely used in biomedical and pharmaceutical fields because of their biodegradability and controlled degradation. In this work, oligomers were investigated as film binders for environmental applications. To overcome the main disadvantages of polyanhydrides (low solubility in comm...
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| Vydané v: | Journal of applied polymer science Ročník 125; číslo 2; s. 1592 - 1600 |
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Wiley Subscription Services, Inc., A Wiley Company
15.07.2012
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| Abstract | Polyanhydrides are largely used in biomedical and pharmaceutical fields because of their biodegradability and controlled degradation. In this work, oligomers were investigated as film binders for environmental applications. To overcome the main disadvantages of polyanhydrides (low solubility in common solvents and high melting points), oligomers based on sebacic acid were prepared. Characterization was carried out by nuclear magnetic resonance and electrospray ionization to obtain chemical structures of the products. The formation of weak interactions, which confer cohesion between chains, allows film properties to be observed. The impact of the solvent polarity on the specific organization was investigated by a combination of focused methods: capillary viscosimetry, IR spectroscopy, polarized light microscopy, and X‐ray diffraction. © 2012 Wiley Periodicals, Inc. J Appl Polym Sci, 2012 |
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| AbstractList | Polyanhydrides are largely used in biomedical and pharmaceutical fields because of their biodegradability and controlled degradation. In this work, oligomers were investigated as film binders for environmental applications. To overcome the main disadvantages of polyanhydrides (low solubility in common solvents and high melting points), oligomers based on sebacic acid were prepared. Characterization was carried out by nuclear magnetic resonance and electrospray ionization to obtain chemical structures of the products. The formation of weak interactions, which confer cohesion between chains, allows film properties to be observed. The impact of the solvent polarity on the specific organization was investigated by a combination of focused methods: capillary viscosimetry, IR spectroscopy, polarized light microscopy, and X‐ray diffraction. © 2012 Wiley Periodicals, Inc. J Appl Polym Sci, 2012 Polyanhydrides are largely used in biomedical and pharmaceutical fields because of their biodegradability and controlled degradation. In this work, oligomers were investigated as film binders for environmental applications. To overcome the main disadvantages of polyanhydrides (low solubility in common solvents and high melting points), oligomers based on sebacic acid were prepared. Characterization was carried out by nuclear magnetic resonance and electrospray ionization to obtain chemical structures of the products. The formation of weak interactions, which confer cohesion between chains, allows film properties to be observed. The impact of the solvent polarity on the specific organization was investigated by a combination of focused methods: capillary viscosimetry, IR spectroscopy, polarized light microscopy, and X-ray diffraction. copyright 2012 Wiley Periodicals, Inc. J Appl Polym Sci, 2012 Polyanhydrides are largely used in biomedical and pharmaceutical fields because of their biodegradability and controlled degradation. In this work, oligomers were investigated as film binders for environmental applications. To overcome the main disadvantages of polyanhydrides (low solubility in common solvents and high melting points), oligomers based on sebacic acid were prepared. Characterization was carried out by nuclear magnetic resonance and electrospray ionization to obtain chemical structures of the products. The formation of weak interactions, which confer cohesion between chains, allows film properties to be observed. The impact of the solvent polarity on the specific organization was investigated by a combination of focused methods: capillary viscosimetry, IR spectroscopy, polarized light microscopy, and X-ray diffraction. © 2012 Wiley Periodicals, Inc. J Appl Polym Sci, 2012 [PUBLICATION ABSTRACT] |
| Author | Linossier, Isabelle Lasne-Deschamps, Anne-Cécile Faÿ, Fabienne Sire, Olivier Vallée-Réhel, Karine |
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| Cites_doi | 10.1016/j.actbio.2009.11.023 10.1016/j.reactfunctpolym.2005.02.017 10.1021/ma00198a002 10.1002/pola.10651 10.1016/0032-3861(90)90401-J 10.1016/j.ijpharm.2006.06.009 10.1021/cr040002s 10.1002/pola.1993.080311004 10.1016/S0169-409X(02)00050-9 10.1002/marc.200900059 10.1007/BF00665987 10.1016/j.polymdegradstab.2006.08.022 10.1021/ma00077a009 10.1016/j.tet.2009.02.083 10.1016/0142-9612(83)90054-6 10.1021/ma00195a018 10.1002/pola.10958 10.1021/ma062080i 10.1016/S0032-3861(01)00379-2 10.1016/0014-3057(95)00002-X 10.1016/S0169-409X(02)00051-0 10.1016/0014-3057(94)00187-1 10.1021/ma000291w 10.1016/j.progpolymsci.2005.06.002 10.1021/ma00009a024 10.1021/cr940351u 10.1021/j100291a046 10.1007/s10856-007-3166-7 10.1002/pola.1987.080251217 10.1016/S0168-3659(02)00125-6 10.1007/978-3-540-68588-3 |
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| Keywords | Solvent effect Viscosity Coating material coating self-organization Molecular structure oligomers polyanhydrides Condensation polymerization Crystallinity Experimental study Oligomer Anhydride polymer Deposition process Sebacic acid Structure processing relationship Solvent evaporation Aliphatic polymer Rheological properties |
| Language | English |
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| References | Rosen, H. B.; Chang, J.; Wnek, G. E.; Linhardt, R. J.; Langer, R. Biomaterials 1983, 4, 131. Nagata, M.; Ioka, E. React Funct Polym 2005, 63, 163. Dechy-Cabaret, O.; Martin-Vaca, B.; Bourissou, D. Chem Rev 2004, 104, 6147. Huang, F.; Nagvekar, D. S.; Zhou, X.; Gibson, H. W. Macromolecules 2007, 40, 3561. Sheiko, S.; Frey, H.; Moller, M. Colloids Polym Sci 1992, 270, 440. Mathiowitz, E.; Amato, C.; Dor, P.; Langer, R. Polymer 1990, 31, 547. Shen, E.; Kipper, M. J.; Dziadul, B.; Lim, M.-K.; Narasimhan, B. J Controlled Release 2002, 82, 115. Guo, W.-X.; Shi, Z.-L.; Liang, K.; Chen, X.-H.; Li, W. Polym Degrad Stab 2006, 91, 2924. Anastasiou, T. J.; Uhrich, K. E. Macromolecules 2000, 33, 6217. Uhrich, K. E.; Cannizzaro, S. M.; Langer, R. S.; Shakesheff, K. M. Chem Rev 1999, 99, 3181. Lahrouni, A.; Arman, J. Eur Polym J 1995, 31, 347. Domb, A. J.; Langer, R. Macromolecules 1989, 22, 2117. Wen-Chuan, L.; Chu, I.-M. J Biomed Mater Res Part B: Appl Biomater 2008, 84, 138. Almudena, P.; Ashley, L. C.; Jeremy, G.; Kathryn, E. U. Macromol Rapid Commun 2009, 30, 1101. Krasko, M. Y.; Shikanov, A.; Ezra, A.; Domb, A. J. J Polym Sci Part A: Polym Chem 2003, 41, 1059. Mathiowitz, E.; Kreitz, M.; Pekarek, K. Macromolecules 1993, 26, 6749. Binder, W. H.; Bouteiller, L.; Brinke, G. T.; Ikkala, O.; Rotello, V. M.; Ruokolainen, J.; Srivastava, S.; Xu, H.; Zirbs, R. Hydrogen Bonded Polymers, Springer: Berlin, 2007. Tantishaiyakul, V.; Worakul, N.; Wongpoowarak, W. Int J Pharm 2006, 325, 8. Göpferich, A.; Langer, R. J Polym Sci Part A: Polym Chem 1993, 31, 2445. Wirtheim, E.; Avram, L.; Cohen, Y. Tetrahedron 2009, 65, 7268. Wenig, R. W.; Schrader, G. L. J Phys Chem 1987, 91, 1911. Domb, A. J.; Gallardo, C. F.; Langer, R. Macromolecules 1989, 22, 3200. Lehn, J.-M. Prog Polym Sci 2005, 30, 814. Dong, A.-J.; Zhang, J.-W.; Jiang, K.; Deng, L.-D. J Mater Sci: Mater Med 2008, 19, 39. Griffin, J.; Carbone, A.; Delgado-Rivera, R.; Meiners, S.; Uhrich, K. E. Acta Biomater 2010, 6, 1917. Zhu, P. W. Eur Polym J 1995, 31, 659. Kumar, N.; Langer, R. S.; Domb, A. J. Adv Drug Deliv Rev 2002, 54, 889. Göpferich, A.; Tessmar, J. Adv Drug Deliv Rev 2002, 54, 911. Shimon Ben-Shabat, E. A.; Raziel, A.; Domb, A. J. J Polym Sci Part A: Polym Chem 2003, 41, 3781. Abed, S.; Boileau, S.; Bouteiller, L. Polymer 2001, 42, 8613. Ron, E.; Mathiowitz, E.; Mathiowitz, G.; Domb, A.; Langer, R. Macromolecules 1991, 24, 2278. Domb, A. J.; Langer, R. J Polym Sci Part A: Polym Chem 1987, 25, 3373. 1993; 26 1995; 31 1990; 31 2006; 91 1989; 22 2004; 104 2009; 65 1987; 91 2008; 19 1983; 4 2002; 54 2005; 63 2007 2002; 82 2001; 42 1987; 25 2009; 30 1992; 270 1991; 24 2000; 33 1993; 31 2005; 30 1999; 99 2007; 40 2006; 325 2008; 84 2003; 41 2010; 6 e_1_2_6_31_2 e_1_2_6_30_2 e_1_2_6_18_2 Wen‐Chuan L. (e_1_2_6_22_2) 2008; 84 e_1_2_6_19_2 e_1_2_6_12_2 e_1_2_6_13_2 e_1_2_6_10_2 e_1_2_6_33_2 e_1_2_6_11_2 e_1_2_6_32_2 e_1_2_6_16_2 e_1_2_6_17_2 e_1_2_6_14_2 e_1_2_6_15_2 e_1_2_6_20_2 e_1_2_6_8_2 e_1_2_6_7_2 e_1_2_6_9_2 e_1_2_6_29_2 e_1_2_6_4_2 e_1_2_6_3_2 e_1_2_6_6_2 e_1_2_6_5_2 e_1_2_6_24_2 e_1_2_6_23_2 e_1_2_6_2_2 e_1_2_6_21_2 e_1_2_6_28_2 e_1_2_6_27_2 e_1_2_6_26_2 e_1_2_6_25_2 |
| References_xml | – reference: Mathiowitz, E.; Amato, C.; Dor, P.; Langer, R. Polymer 1990, 31, 547. – reference: Griffin, J.; Carbone, A.; Delgado-Rivera, R.; Meiners, S.; Uhrich, K. E. Acta Biomater 2010, 6, 1917. – reference: Shimon Ben-Shabat, E. A.; Raziel, A.; Domb, A. J. J Polym Sci Part A: Polym Chem 2003, 41, 3781. – reference: Göpferich, A.; Tessmar, J. Adv Drug Deliv Rev 2002, 54, 911. – reference: Mathiowitz, E.; Kreitz, M.; Pekarek, K. Macromolecules 1993, 26, 6749. – reference: Nagata, M.; Ioka, E. React Funct Polym 2005, 63, 163. – reference: Rosen, H. B.; Chang, J.; Wnek, G. E.; Linhardt, R. J.; Langer, R. Biomaterials 1983, 4, 131. – reference: Huang, F.; Nagvekar, D. S.; Zhou, X.; Gibson, H. W. Macromolecules 2007, 40, 3561. – reference: Tantishaiyakul, V.; Worakul, N.; Wongpoowarak, W. Int J Pharm 2006, 325, 8. – reference: Wen-Chuan, L.; Chu, I.-M. J Biomed Mater Res Part B: Appl Biomater 2008, 84, 138. – reference: Dong, A.-J.; Zhang, J.-W.; Jiang, K.; Deng, L.-D. J Mater Sci: Mater Med 2008, 19, 39. – reference: Abed, S.; Boileau, S.; Bouteiller, L. Polymer 2001, 42, 8613. – reference: Kumar, N.; Langer, R. S.; Domb, A. J. Adv Drug Deliv Rev 2002, 54, 889. – reference: Domb, A. J.; Langer, R. Macromolecules 1989, 22, 2117. – reference: Almudena, P.; Ashley, L. C.; Jeremy, G.; Kathryn, E. U. Macromol Rapid Commun 2009, 30, 1101. – reference: Anastasiou, T. J.; Uhrich, K. E. Macromolecules 2000, 33, 6217. – reference: Wirtheim, E.; Avram, L.; Cohen, Y. Tetrahedron 2009, 65, 7268. – reference: Dechy-Cabaret, O.; Martin-Vaca, B.; Bourissou, D. Chem Rev 2004, 104, 6147. – reference: Zhu, P. W. Eur Polym J 1995, 31, 659. – reference: Sheiko, S.; Frey, H.; Moller, M. Colloids Polym Sci 1992, 270, 440. – reference: Lahrouni, A.; Arman, J. Eur Polym J 1995, 31, 347. – reference: Göpferich, A.; Langer, R. 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| Snippet | Polyanhydrides are largely used in biomedical and pharmaceutical fields because of their biodegradability and controlled degradation. In this work, oligomers... |
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| SubjectTerms | Applied sciences Bacteriology Binders coating Degradation Diffraction Exact sciences and technology Ionization Life Sciences Materials science Melting points Microbiology and Parasitology Oligomers Organic polymers Physicochemistry of polymers Polyanhydrides Polymers Polymers with particular properties Preparation, kinetics, thermodynamics, mechanism and catalysts sebacic acid self-organization Solvents |
| Title | Oligomers of poly(anhydride): Study of interaction in coating binder |
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