Synthesis, Shape-Memory Functionality and Hydrolytical Degradation Studies on Polymer Networks from Poly(rac-lactide)-b-poly(propylene oxide)-b-poly(rac-lactide) dimethacrylates

Synthesis, Shape-Memory Functionality and Hydrolytical Degradation Studies on Polymer Networks from Poly(rac-lactide)-b-poly(propylene oxide)-b-poly(rac-lactide) dimethacrylates

Amorphous, hydrolytically degradable, multi‐phase block copolymer networks were obtained by photocrosslinking. The macrodimethacrylate precursors were prepared by ring‐opening polymerisation (ROP). The aim of this investigation to tailor the materials' elasticity in the temporary shape could be...

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Veröffentlicht in:Advanced engineering materials 2006-05, Vol.8 (5), p.439-445
Hauptverfasser: Choi, N.-Y., Kelch, S., Lendlein, A.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Biodegradable polymers
Biological and medical sciences
Exact sciences and technology
Medical sciences
Organic polymers
Physicochemistry of polymers
Polymer networks
Polymers with particular properties
Preparation, kinetics, thermodynamics, mechanism and catalysts
Shape memory polymers
Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases
Technology. Biomaterials. Equipments
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Zusammenfassung:Amorphous, hydrolytically degradable, multi‐phase block copolymer networks were obtained by photocrosslinking. The macrodimethacrylate precursors were prepared by ring‐opening polymerisation (ROP). The aim of this investigation to tailor the materials' elasticity in the temporary shape could be achieved. Stress‐controlled, cyclic thermomechanical tensile experiments showed the materials' excellent shape‐memory properties with strain recovery rates up to 99 %. The presented amorphous, biodegradable polymer network system with shape‐memory presents a new generation of multi‐functional biomaterials enabling applications in keyhole surgery or controlled drug release.
ISSN:1438-1656
1527-2648
DOI:10.1002/adem.200600020