Among various classes of biomaterials, the majority of non‐centrosymmetric crystalline
materials exhibit piezoelectric properties, ie, the accumulation of charge in response to …

A range of traditional and free-form fabrication technologies have been investigated and, in
numerous occasions, commercialized for use in the field of regenerative tissue engineering …

Metal additive manufacturing (metal-AM) has undergone a remarkable evolution over the
past three decades. It was first used solely as an innovative resource of the prototype. Due to …

Biological high-entropy alloy (Bio-HEA) is a new generation of biomedical alloys with
excellent mechanical properties and good biocompatibility. However, elemental segregation …

Additive manufacturing (AM) of titanium (Ti) and Ti-6Al-4V lattices has been proposed for
bone implants and augmentation devices. Ti and Ti-6Al-4V have favourable biocompatibility …

Over the past few decades, the field of biomaterials concerning bone tissue engineering has
gained a significant amount of interest. This has led to new biomaterials to be used as bone …

Cementless fixation for orthopedic implants aims to obviate challenges associated with bone
cement, providing long-term stability of bone prostheses after implantation. The application …

One of the biggest challenges in tissue engineering is the manufacturing of porous
structures that are customized in size and shape and that mimic natural bone structure …

Despite exceptional self-regeneration properties of bone, severe injuries often require
additional surgical intervention such as using artificial bone constructs. These structures …

Due to the growing aging population of the world, and as a result of the increasing need for
dental implants and prostheses, the use of titanium and its alloys as implant materials has …