Add to ORKGCommonly used thermoplastic biodegradable polymers are generally brittle and lack appreciable elasticity at physiological temperature and thereby fail to mimic the elastic nature of many human soft tissues such as blood vessels. Thus, there is a need for biomaterials which exhibit elasticity. Biodegradable elastomers are promising candidates whose elasticity more closely parallels that of soft tissues. In this research, we developed hybrid biodegradable elastomers comprised of organic and inorganic polymer components in a block copolymer system: poly(e-caprolactone) (PCL) and poly(dimethylsiloxane) (PDMS), respectively. A block structure maintains the distinct properties of the PCL and PDMS components. These elastomers may be useful for the...
Development of modern medical technologies would be impossible without the application of various ma...
Lactic acid and ∑-caprolactone based polymers and their derivates are widely used in biomedical appl...
Living animal cells are strongly influenced by the mechanical properties of their environment. To mo...
There is a need for biodegradable thermoplastic elastomers for a variety of medical applications. Th...
Elastomeric scaffolds play an important role in the field of soft tissue engineering, and recently, ...
Development of biodegradable shape memory elastomers (SMEs) is driven by the growing need for materi...
A major challenge in the repair and regeneration of soft tissue damage occurring as a result of agin...
Synthetic biodegradable polymers are of great value for the preparation of implants that are require...
Biodegradable polymers with high mechanical strength, flexibility and optical transparency, optimal ...
Elastomeric bioscaffolds with tunable elasticity and biodegradability were synthesized via ring open...
Biodegradable soft elastomeric biomaterials are desired in the application of soft tissue engineerin...
Biodegradable Thermoplastic Elastomer (BTPE) has the potential uses as implantable devices due to th...
Elastomeric copolymers of 1,3-trimethylene carbonate (TMC) and ε-caprolactone (CL) and copolymers of...
Nowadays, efforts are dedicated to develop new biodegradable polymers for soft tissues engineering, ...
Biodegradable and biocompatible 3D printable biomaterials with tunable mechanical properties and deg...
Development of modern medical technologies would be impossible without the application of various ma...
Lactic acid and ∑-caprolactone based polymers and their derivates are widely used in biomedical appl...
Living animal cells are strongly influenced by the mechanical properties of their environment. To mo...
There is a need for biodegradable thermoplastic elastomers for a variety of medical applications. Th...
Elastomeric scaffolds play an important role in the field of soft tissue engineering, and recently, ...
Development of biodegradable shape memory elastomers (SMEs) is driven by the growing need for materi...
A major challenge in the repair and regeneration of soft tissue damage occurring as a result of agin...
Synthetic biodegradable polymers are of great value for the preparation of implants that are require...
Biodegradable polymers with high mechanical strength, flexibility and optical transparency, optimal ...
Elastomeric bioscaffolds with tunable elasticity and biodegradability were synthesized via ring open...
Biodegradable soft elastomeric biomaterials are desired in the application of soft tissue engineerin...
Biodegradable Thermoplastic Elastomer (BTPE) has the potential uses as implantable devices due to th...
Elastomeric copolymers of 1,3-trimethylene carbonate (TMC) and ε-caprolactone (CL) and copolymers of...
Nowadays, efforts are dedicated to develop new biodegradable polymers for soft tissues engineering, ...
Biodegradable and biocompatible 3D printable biomaterials with tunable mechanical properties and deg...
Development of modern medical technologies would be impossible without the application of various ma...
Lactic acid and ∑-caprolactone based polymers and their derivates are widely used in biomedical appl...
Living animal cells are strongly influenced by the mechanical properties of their environment. To mo...