Synthesis and characterization of novel citric acid-based polyester elastomers
In this paper we report successful simple synthesis of unique elastic polyesters by carrying
out catalyst-free polyesterification of multifunctional non-toxic monomers: 1, 8-octanediol …
out catalyst-free polyesterification of multifunctional non-toxic monomers: 1, 8-octanediol …
3D printing of photocurable poly (glycerol sebacate) elastomers
Abstract Three-dimensional (3D) printed scaffolds have great potential in biomedicine;
however, it is important that we are able to design such scaffolds with a range of diverse …
however, it is important that we are able to design such scaffolds with a range of diverse …
Multimodal three-dimensional printing for micro-modulation of scaffold stiffness through machine learning
The ability to precisely control a scaffold's microstructure and geometry with light-based
three-dimensional (3D) printing has been widely demonstrated. However, the modulation of …
three-dimensional (3D) printing has been widely demonstrated. However, the modulation of …
Development of poly (glycerol sebacate) and its derivatives: a review of the progress over the past two decades
L Yu, G Zeng, J Xu, M Han, Z Wang, T Li, M Long… - Polymer …, 2023 - Taylor & Francis
Abstract Poly (glycerol sebacate)(PGS) and its derivatives have been developed and used
for various biomedical applications over the past two decades. Several publications have …
for various biomedical applications over the past two decades. Several publications have …
Amino alcohol-based degradable poly (ester amide) elastomers
Currently available synthetic biodegradable elastomers are primarily composed of
crosslinked aliphatic polyesters, which suffer from deficiencies including (1) high crosslink …
crosslinked aliphatic polyesters, which suffer from deficiencies including (1) high crosslink …
Highly elastic and moldable polyester biomaterial for cardiac tissue engineering applications
Polyester biomaterials are used in tissue engineering as scaffolds for implantation of tissues
developed in vitro. An ideal biodegradable elastomer for cardiac tissue engineering exhibits …
developed in vitro. An ideal biodegradable elastomer for cardiac tissue engineering exhibits …
Recent advances in materials and flexible electronics for peripheral nerve interfaces
CJ Bettinger - Bioelectronic medicine, 2018 - Springer
Peripheral nerve interfaces are a central technology in advancing bioelectronic medicines
because these medical devices can record and modulate the activity of nerves that innervate …
because these medical devices can record and modulate the activity of nerves that innervate …
Synthesis, characterization and 3D micro-structuring via 2-photon polymerization of poly (glycerol sebacate)-methacrylate–an elastomeric degradable polymer
S Pashneh-Tala, R Owen, H Bahmaee… - Frontiers in …, 2018 - frontiersin.org
Poly (glycerol sebacate)(PGS) has been utilized in numerous biomaterial applications over
recent years. This elastomeric and rapidly degradable polymer is cytocompatible and suited …
recent years. This elastomeric and rapidly degradable polymer is cytocompatible and suited …
Effect of molecular weight and functionality on acrylated poly (caprolactone) for stereolithography and biomedical applications
BJ Green, KS Worthington, JR Thompson… - …, 2018 - ACS Publications
Degradable polymers are integral components in many biomedical polymer applications.
The ability of these materials to decompose in situ has become a critical component for …
The ability of these materials to decompose in situ has become a critical component for …
Synthesized biocompatible and conductive ink for 3D printing of flexible electronics
Abstract Three-dimensional (3D) printing is an efficient technique for the fabrication of
electronic devices. It also enables the use conductive of biomaterials in various applications …
electronic devices. It also enables the use conductive of biomaterials in various applications …