Early development of a biodegradable energetic elastomer

## Abstract A detailed report on the development of CUPE polymers synthesized using diols with 4, 6, 8, 10, or 12 methylene units is presented with the aim of elucidating the influence of the diol component on the physical properties of the resulting material and assessing their long‐term biologica

Biomaterials play a central role in many areas of medicine, including drug delivery, tissue regeneration and implantable devices. [1][2][3] For some applications, biodegradable elastomeric materials have particular utility, since their compliance under force closely resembles the elastic nature of m

A biodegradable polyphosphate polymer (M n ϭ 18,000, M w / in PBS than in bovine serum. In vitro release of OP-1 was M n ϭ 3.2) matrix system was developed as a potential deliv-also faster in PBS than in serum. Release kinetics of OP-1 ery vehicle for growth factors. As a model system, release in PB

## Abstract Melt blending of polylactide (PLA) and a biodegradable poly(ether)urethane (PU) elastomer has been performed in an effort to toughen the polylactide without compromising its biodegradability and biocompatibility. The miscibility, phase morphology, mechanical properties, and toughening m

## Abstract Biodegradable poly(ester)urethane (PU) elastomer‐based nanocomposite films incorporated with organically modified nanoclay were prepared with melt‐extrusion compounding followed by a casting film process. These films were intended for application as biodegradable food packaging films, w