Polyfester amides

P. Deepa. C. Sona, M. Jayakannan, Synthesis and investigation of the effect of nematic phases on the glass-transition behavior of novel cycloaUphatic Uquid-crystalline polyfester amide)s, J. Polym. Sd. A Polym. Chem. 44 (2006) 5557-5571. [Pg.165]

K.Y. Sandhya, C.K.S. Pillai, K. Sree Kumar, New Uquid-crystaUine polyfester amide)s the role of nitro groups in the phase behavior, J. Polym. Sd. B Polym. Phys. 42 (2004) 1289-1298. [Pg.165]

P.J.M. Serrano, J.P.M. Van Duynhoven, R.J. Caymans, R. Hulst, Morphology of alternating polyfester amide)s based on 1,4-butylene estabUshed by HI soUd-state NMR relaxation measurements. Macromolecules 35 (2002) 8013-8019. [Pg.165]

W.G. Kim, H.G. Yoon, J.Y. Lee, Biodegradable polymers based on renewable resources. V. Synthesis and biodegradation behavior of polyfester amide)s composed of l,4 3,6-dianhydro-D-gludtol, a-amino acid, and aliphatic dicarboxylic add units, J. Appl. Polym. [Pg.165]

C. Regaiio, A.M. De llarduya, J.I. Iribarren, S. Munoz-Guma, Polyfester amide)s derived from L-tartaric add and amino alcohols. II. Aregic polymers, J. Polym. Sd. A Polym. Chem. 38 (2000) 2687—... [Pg.165]

C. Regano, A. Alla, A. Martinez de llarduya, S. Munoz-Guerra, Polyfester amide)s derived from L-malic acid. Macromolecules 37 (2004) 2067-2075. [Pg.165]

K. Guo, C.C. Chu, Controlled release of pacUtaxel from biodegradable unsaturated polyfester amide)s/poly(ethylene glycol) diacrylate hydrogels, J. Biomater. Sci. Polym. Ed. 18 (2007) 489-504. [Pg.165]

K. Guo, C.C. Chu, Biodegradable and injectable paclitaxel-loaded polyfester amide)s, J. Biomed. Mata". Res. B Appl. Biomater. 89... [Pg.165]

C.C. Chu, D.D. Sun, C.C. Chu, D.D. Sun, New electrospun synthetic biodegradable polyfester amide) drug-eluting fibrous membranes for potential wound treatment, in AATCC Symposium Proceedings on Medical, Nonwovens, and Technical Textiles, 2008, pp. 60-76. [Pg.165]

M.A. de Wit, Z. Wang, K.M. Atkins, K. Mequanint, E.R. GiBies, Syntheses, characterization, and functionalization of polyfester amide)s with pendant amine functional groups, J. Polym. Sci. A Polym. Chem. 46 (2008) 6376-6392. [Pg.165]

M. Deng, J. Wu, C.A. Reinhart-King, C.C. Chu, Biodegradable functional polyfester amide)s with pendant hydroxyl functional groups synthesis, characterization, fabrication and in vitro cellular response, Acta Biomater. 7 (2011) 1504—1515. [Pg.165]

X. Pang, C.C. Chu, Synthesis, characterization and biodegradation of functionalized amino add-based polyfester amide)s. Biomaterials 31... [Pg.165]

A. Ghaffar, G.J.J. Draaisma, G. Mihov, A.A. Dias, P.J. Schoenmak-ers, Sj van der Wal, Monitoring the in vitro enzyme-mediated degradation of degradable polyfester amide) for controlled drug deUvery by LC-ToF-MS, Biomacromolecules 12 (2011) 3243—3251. [Pg.165]

Preparation of zinc-containing vegetable oil-based polyfester amide) resin. [Pg.131]

Mukundan S, et al. Nanofibrous composite scaffolds of polyfester amides) with tunable physicochemical and degradation properties. Eur Polym J 2015 68 21-35. [Pg.154]

R. J. Caymans and J. L. de Haan, Segmented copolymers with polyfester amide) units of uniform length synthesis. Polymer, 34 4360-4364,1993. [Pg.180]

Scanning electron image of a phenylalanine-based polyfester amide) fiber in PBS buffer medium at 37°C for (a) 1 day, (b) 32 days. [Pg.314]

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