Successful materials design for bone-tissue engineering requires an understanding of the
composition and structure of native bone tissue, as well as appropriate selection of …

Abstract Two-dimensional (2D) nanomaterials are an emerging class of biomaterials with
remarkable potential for biomedical applications. The planar topography of these …

Supramolecular binding motifs are increasingly employed in the design of biomaterials. The
ability to rationally engineer specific yet reversible associations into polymer networks with …

Broad interest in developing new hemostatic technologies arises from unmet needs in
mitigating uncontrolled hemorrhage in emergency, surgical, and battlefield settings …

Bioprinting is an emerging approach for fabricating cell‐laden 3D scaffolds via robotic
deposition of cells and biomaterials into custom shapes and patterns to replicate complex …

Given their durability and long‐term stability, self‐healable hydrogels have, in the past few
years, emerged as promising replacements for the many brittle hydrogels currently being …

Bovine xenograft materials, followed by synthetic biomaterials, which unfortunately still lack
documented predictability and clinical performance, dominate the market for the cranio …

Bone grafts have been predominated used to treat bone defects, delayed union or non-
union, and spinal fusion in orthopaedic clinically for a period of time, despite the emergency …

BACKGROUND Hydrogels are formed through the cross-linking of hydrophilic polymer
chains within an aqueous microenvironment. The gelation can be achieved through a …

Soft hydrogels are excellent candidate materials for repairing various tissue defects, yet the
mechanical strength, anti-swelling properties, and biocompatibility of many soft hydrogels …