Biomanufacturing of tissues/organs in vitro is our big dream, driven by two needs: organ
transplantation and accurate tissue models. Over the last decades, 3D bioprinting has been …

Abstract 3D printing enables the complex or customized structures production in high speed
and resolution. However, the lack of bio-based materials with user-defined biochemical and …

Regenerative medicine holds the promise of engineering functional tissues or organs to
heal or replace abnormal and necrotic tissues/organs, offering hope for filling the gap …

Biomaterials have ushered the field of tissue engineering and regeneration into a new era
with the development of advanced composites. Among these, the composites of inorganic …

Abstract Three-dimensional (3D) printing technology has received great attention in the past
decades in both academia and industry because of its advantages such as customized …

3D printing is a rapidly growing research area, which significantly contributes to major
innovations in various fields of engineering, science, and medicine. Although the scientific …

Reconstruction of bony defects is challenging when conventional grafting methods are used
because of their intrinsic limitations (biological cost and/or biological properties). Bone …

Extensive burns and full-thickness skin wounds are difficult to repair. Autologous split-
thickness skin graft (ASSG) is still used as the gold standard in the clinic. However, the …

The recognition‐directed host‐guest interaction is recognized as a valuable tool for creating
supramolecular polymers. Functional hydrogels constructed through the dynamic and …

Bioprinted s kin tissue has the potential for aiding drug screening, formulation development,
clinical transplantation, chemical and cosmetic testing, as well as basic research. Limitations …