Cell-matrix interactions play a critical role in tissue repair and regeneration. With gradual
uncovering of substrate mechanical characteristics that can affect cell-matrix interactions …

Since the advent of additive manufacturing, known commonly as 3D printing, this technology
has revolutionized the biofabrication landscape and driven numerous pivotal advancements …

The design and use of materials in the nanoscale size range for addressing medical and
health-related issues continues to receive increasing interest. Research in nanomedicine …

Electrospinning provides an enabling nanotechnology platform for generating a rich variety
of novel structured materials in many biomedical applications including drug delivery …

The demand for organ transplantation and repair, coupled with a shortage of available
donors, poses an urgent clinical need for the development of innovative treatment strategies …

Hydrogels are hydrophilic polymer‐based materials with high water content and physical
characteristics that resemble the native extracellular matrix. Because of their remarkable …

Mimicking the nanofibrous structure similar to extracellular matrix and conductivity for
electrical propagation of native myocardium would be highly beneficial for cardiac tissue …

Given their highly porous nature and excellent water retention, hydrogel‐based biomaterials
can mimic critical properties of the native cellular environment. However, their potential to …

The development of advanced biomaterials is a crucial step to enhance the efficacy of tissue
engineering strategies for treatment of myocardial infarction. Specific characteristics of …

Flexible electronic devices featuring fashionable wearability, flexibility, and compatibility are
drawing considerable attention for use in touch screens, healthcare monitoring, smart …