Synthesis and characterization of novel biodegradable water dispersed poly(ether-urethane)s and their MWCNT-AS nanocomposites functionalized with aspartic acid as dispersing agent

(2018) Synthesis and characterization of novel biodegradable water dispersed poly(ether-urethane)s and their MWCNT-AS nanocomposites functionalized with aspartic acid as dispersing agent. Iranian Polymer Journal. pp. 755-774. ISSN 1026-1265

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Abstract

New biodegradable poly(ether-urethane)s (PEU)s were synthesized via the reaction of L-leucine anhydride cyclo-peptide, polyethylene glycol-1000 and hexamethylene diisocyanate. Then, they were end-functionalized with aspartic acid (AS) as a dispersing agent and were dispersed in water. MWCNTs were also functionalized by AS under microwave irradiation. Polymer/MWCNT-AS composites and polymer/MWCNT-AS water dispersed composites were prepared through an ultrasound-assisted method. We have designed these PEUs with two different structural architectures (PA1 and PA2) which can be readily dispersed in water (PA1-D and PA2-D). The structure and properties of the polymers, MWCNTs-AS and PEUs/MWCNTs-AS composites were investigated by FTIR and NMR spectroscopy methods and FE-SEM, TEM and TGA techniques. The particle sizes of the resulting PA1-D and PA2-D dispersions were in the range of 200-300 nm. The results showed that by increasing MWCNT-AS loading, the degradation rate and particle sizes of the dispersed composites decreased, while thermal stability and dispersion stability of the composite systems increased. The degradation tests of polymers and their composites in PBS at 37 degrees C after 10 days showed weight losses ranging from 23 to 44 and 17-37, respectively. The cytotoxicity study of polymers using the direct-contact test on L929 mouse fibroblast cell line showed no toxicity. Other properties such as thermal stability, dispersion's particle size, degradation rate and morphology of the composites were studied, and the effect of simultaneous dispersion of MWCNTs-AS and PEUs in water on the properties of the resulting mixtures was studied. We suggest that these polymers have tunable properties which may potentially be considered for drug carriers' studies.

Item Type: Article
Keywords: copoly(ether-urethane) water dispersion l-leuceine anhydride cyclopeptid aspartic acid biofunctionalized mwcnt biodegradable drug-delivery systems biomedical applications poly(ethylene glycol) carbon nanotubes amino-acids polyurethane degradation scaffolds copolymer micelles
Divisions: Novel Drug Delivery Systems Research Center
Page Range: pp. 755-774
Journal or Publication Title: Iranian Polymer Journal
Journal Index: ISI
Volume: 27
Number: 10
Identification Number: https://doi.org/10.1007/s13726-018-0655-0
ISSN: 1026-1265
Depositing User: Zahra Otroj
URI: http://eprints.mui.ac.ir/id/eprint/9900

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