The inkjet technique has the capability of generating droplets in the picoliter volume range,
firing thousands of times in a few seconds and printing in the noncontact manner. Since its …

Elastomers are a unique and important class of polymers that enjoy applications in virtually
every industry, including healthcare, aerospace, automotive, and apparel. However, due to …

Bioprinting has emerged in recent years as an attractive method for creating 3-D tissues and
organs in the laboratory, and therefore is a promising technology in a number of …

The tremendous interest received by additive manufacturing (AM) within the biomedical
community is a consequence of the great versatility offered in terms of processing approach …

As a type of elastomeric polymers, non-degradable polyurethanes (PUs) have a long history
of being used in clinics, whereas biodegradable PUs have been developed in recent …

Three-dimensional (3D) printing, known as the most promising approach for bioartificial
organ manufacturing, has provided unprecedented versatility in delivering multi-functional …

Polyurethanes (PUs) are formed by a reaction between isocyanates and diols to yield
polymers with urethane bonds (–NH–COO–) in their main chain. A great variety of building …

Due to the specific physiological pH throughout the human body, pH-responsive polymers
have been considered for aiding drug delivery systems. Depending on the surrounding pH …

Inkjet printing is widely considered a promising strategy to pattern hydrogels and living cells
into three-dimensional (3D) constructs that structurally resemble tissues in our body …

The purpose of this paper is to review recent developments on polyurethanes aimed at the
design, synthesis, modifications, and biological properties in the field of bone tissue …