Herein we present a system to obtain fibers from clickable elastin-like recombinamers
(ELRs) that crosslink in situ during the electrospinning process itself, with no need for any …

In regenerative medicine, self-regulated tissue regeneration is perceived by Mesenchymal
Stem Cells (MSCs) fate due to their tissue-specific differentiation, which is an emerging yet …

Nerve tissue engineering is an alternative interdisciplinary strategy with the aim of
regenerating damaged nerves by combining life science and engineering. In the present …

Cellular behavior in nerve regeneration is affected by the architecture of the polymeric nerve
guide conduits (NGCs); therefore, design features of polymeric NGCs are critical for neural …

Aligned submicron fibers have played an essential role in inducing stem cell proliferation
and differentiation. In this study, it is aimed to identify the differential causes of stem cell …

In this study, plasticized electrospun fibers have been designed and fabricated as an
electrolyte for lithium-ion batteries using electrospinning method. Polyethylene oxide (PEO) …

The development of multilayered anisotropic scaffolds with a 3D anisotropy similar to that of
native cardiac tissue with layer-specific oriented multiple cell layers is a major challenge in …

An essential structure in nerve regeneration within engineered conduits is the “nerve bridge”
initiated by centrally migrating Schwann cells in response to chemokine gradients …

Synthetic polymers are easy to process and have excellent mechanical properties but low
wettability and poor cell compatibility limit their applications in tissue scaffolding. In this …

Efficient cellular alignment in biomaterials presents a considerable challenge, demanding
the refinement of appropriate material morphologies, while ensuring effective cell–surface …