Laser powder bed fusion (LPBF) additive manufacturing has been advancing in the
fabrication of metallic multi-material structures with intricate structures and refined material …

The porous structure design of implants can not only obtain a more lightweight implant but
also provide more space for its cell growth. The technology development of additive …

Magnesium (Mg) alloys are considered to be a new generation of revolutionary medical
metals. Laser-beam powder bed fusion (PBF-LB) is suitable for fabricating metal implants …

Zero-valent iron (ZVI) has emerged as an efficient catalyst for facilitating the decomposition
of organic pollutants. However, practical applications of ZVI remain limited owing to its …

Additively manufactured biodegradable zinc (Zn) alloy scaffolds constitute an important
branch in orthopedic implants because of their moderate degradation behavior and bone …

Ni-Ti shape memory alloys with triply periodic minimal surface (TPMS) lattice structures have
aroused increasing interests due to their great application potential in bone tissue …

Since we are able to use 3D printers, producing porous metal scaffolds become very easy.
Contrary to usual methods, 3D printing of porous scaffolds is determined by a controllable …

The integration of bio‐adaptable performance, elaborate structure, and biological
functionality for degradable bone implants is crucial in harnessing the body's regenerative …

Ti6Al4V is extensively utilized as orthopedic implants owing to its outstanding
biocompatibility and mechanical qualities. However, because Ti6Al4V has a high strength, it …

Although barium titanate (BaTiO3) presented tremendous potential in achieving self-
powered stimulation to accelerate bone repair, pervasive oxygen vacancies restricted the …