Abstract 3D printing is a rapidly growing technology that has an enormous potential to
impact a wide range of industries such as engineering, art, education, medicine, and …

The repair and restoration of bone defects in orthopaedic and dental surgery remains a
major challenge despite advances in surgical procedures and post-operative treatments …

Glasses are materials that lack a crystalline microstructure and long‐range atomic order.
Instead, they feature heterogeneity and disorder on superstructural scales, which have …

Chitosan is a marine-origin polysaccharide obtained from the deacetylation of chitin, the
main component of crustaceans' exoskeleton, and the second most abundant in nature …

Three-dimensional (3D) printing technology allows fabricating complex and precise
structures by stacking materials layer by layer. The fabrication method has a strong potential …

This review article presents a comprehensive overview of the latest advances in the field of
3D printable structures with self‐healing properties. Three‐dimensional printing (3DP) is a …

Developing green and nontoxic biomaterials, derived from renewable sources and
processable through 3D bioprinting technologies, is an emerging challenge of sustainable …

For next-generation electronics, it is crucial to be able to accurately mimic the nature of
human skin and develop skin-inspired materials and devices for electronic skin (e-skin) …

The development of new advanced constructs resembling structural and functional
properties of human organs and tissues requires a deep knowledge of the morphological …

Biomaterials for nucleus pulposus (NP) replacement and regeneration have great potential
to restore normal biomechanics in degenerated intervertebral discs following nucleotomy …