Bone fractures are common occurrence in clinical settings, creating a high demand for
effective repair material. Unfortunately, limited graft availability, donor site morbidities …

Polymeric membranes are selective materials used in a wide range of applications that
require separation processes, from water filtration and purification to industrial separations …

The incorporation of hydroxyapatite (HAP) into poly-l-lactic acid (PLLA) matrix serving as
bone scaffold is expected to exhibit bioactivity and osteoconductivity to those of the living …

The hydrogel composited hydroxyapatite (HAp) scaffold shown biomimetic extracellular
matrix and osteogenic activity, which is a promising bone regeneration biomaterial. 3D …

Zinc (Zn) possesses desirable degradability and favorable biocompatibility, thus being
recognized as a promising bone implant material. Nevertheless, the insufficient mechanical …

Processing and composition can significantly affect the mechanobiology, biodegradability,
and cellular behavior of polymer-based bone scaffolds to replace damaged bone tissue. In …

Abstract 3D printing fabrication has become a dominant approach for the creation of tissue
engineering constructs as it is accurate, fast, reproducible and can produce patient-specific …

Polylactic acid (PLA) based scaffolds have attracted worldwide attention as promising
biodegradable implants in bone tissue engineering. PLA matrix is often incorporated with …

Hydroxyapatite (HAP) can endow a biopolymer scaffold with good bioactivity and
osteoconductive ability, while the interfacial bonding is fairly weak between HAP and …

The resin-fiber interface is pivotal to the performance of composites. Molecular dynamics
simulations were used to study the relationship between interface structure and interface …