Additive manufacturing has attracted keen interest in the medical field in recent decades,
especially for bone regeneration. Many additive manufacturing processes have been used …

Biomedical scientists use chemistry-driven processes found in nature as an inspiration to
design biomaterials as promising diagnostic tools, therapeutic solutions, or tissue …

Laser-induced periodic surface structures (LIPSS) are a universal phenomenon and can be
generated on almost any material by irradiation with linearly polarized radiation. This …

Nowadays, hybrid surface modification techniques are desirable approaches that are widely
used to enhance the corrosion and wear behavior and biocompatibility of titanium dental …

For generating a texture or pattern on a work surface, one of the emerging processes is laser
surface texturing (LST). It is an effective method for producing texture on a work surface …

Rapid and effective osseointegration, as a critical factor in affecting the success rate of
titanium (Ti) implants in orthopedic applications, is significantly affected by their surface …

Despite having a whole range of applications as in weight-saving structures, biodegradable
implants and rechargeable batteries, the usage of magnesium is still hindered by its high …

Bone regeneration requires porous and mechanically stable scaffolds to support tissue
integration and angiogenesis, which is essential for bone tissue regeneration. With the …

This study explores the enhancement of biocompatible titanium‐based implants through
surface functionalization for improved bone healing. Specifically, a near‐beta type Ti‐13Nb …

Designing complex local properties that seamlessly integrate efficient functions into
processed materials presents a formidable challenge. A promising solution has emerged in …