Synthetic polymers (SyPs) have found many relevant applications niches in biomedical
engineering. Their mechanical properties, defined chemical structure, batch to batch …

Electrospinning is a versatile tool used to produce highly customizable nonwoven nanofiber
mats of various fiber diameters, pore sizes, and alignment. It is possible to create …

Polymer material provides significant advantages over the conventional inorganic material-
based electronics due to its attractive features including miniaturized dimension and feasible …

Since the introduction of tissue engineering (TE) concept for repair or regeneration of failed
tissues/organs, this novel interdisciplinary field has progressed significantly. In this context …

Electrospinning and polymer blending have been the focus of research and the industry for
their versatility, scalability, and potential applications across many different fields. In tissue …

The presented article comprehensively explores the remarkable potential of polyaniline
(PANI) and its composites in supercapacitor applications. This review introduces the …

Conductive and degradable nanofibrous scaffolds have great potential in promoting cell
growth, proliferation, and differentiation under an external electric field. Although the issue of …

Substantial mucosa defects in gastrointestinal tracts are difficult to repair, causing high
mortality. Existing artificial mucosa studies overlooked the natural surface texture and the …

Conductive polymers (CPs) have recently been applied in the development of scaffolds for
tissue engineering applications in attempt to induce additional cues able to enhance tissue …

One of the established tissue engineering strategies relies on the fabrication of appropriate
materials architectures (scaffolds) that mimic the extracellular matrix (ECM) and assist the …