The use of additive manufacturing, or 3D printing, has progressed beyond prototy** to
produce intricate and valuable finished goods. The potential of additive manufacturing has …

The repair and functional reconstruction of bone defects resulting from severe trauma,
surgical resection, degenerative disease, and congenital malformation pose significant …

Graphene membrane is considered the preferred item of thermal conductivity material for
wearable devices due to its unique flexibility and high thermal conductivity. However, water …

Porous and functionally graded materials have seen extensive applications in modern
biomedical devices—allowing for improved site-specific performance; their appreciable …

Laser powder bed fusion (LPBF) additive manufacturing of zinc (Zn) offers promising
advantages for biodegradable metal bone implants, including tailorable microstructures …

The orthopedic application of Mg alloys suffers from excessive degradation. In this study,
hydroxyapatite (HAP) nanoparticles are doped with MgO by high-energy ball milling, and …

This paper gives a detailed analysis of nanotechnology's rising involvement in numerous
surgical fields. We investigate the use of nanotechnology in orthopedic surgery …

Wearable skin-contacting devices are extensively studied for their ability to provide
convenient and safe health monitoring. A key aspect that controls their performance are the …

Biodegradable magnesium alloys for orthopedic bone fixation have been introduced for
various fields of application. The corrosion resistance of magnesium implants weakens in …

Titanium alloys play a prominent role as metallic biomaterials in the biomedical sector,
particularly for implant applications. Various types of Ti alloys are suitable for medical …