With improvement of orthopaedic technologies for bone replacement and regeneration,
there is an increasing need for materials with superior properties. Mg-containing silicate …

Bone is a self‐engineered structural component of the human body with multifaceted
mechanical strength, which provides indomitable support to the effective functioning of the …

Magnesium has attracted much attention as a class of biodegradable metallic biomaterials.
In this study, a silicate electrolyte-based micro-arc oxidation (MAO) treatment was adopted to …

Despite the benefits of akermanite, there are limited reports on making powder and dense
bulk akermanite (Ca 2 MgSi 2 O 7) and most articles have focused on building akermanite …

The present article critically reviewed the potentiality of Mg–Ca silicate-based crystalline
bioceramics such as MgSiO3, Mg2SiO4, CaSiO3, Ca2SiO4, Ca3SiO5, CaMgSi2O6 …

In this research, a bilayer coating has been applied on the surface of 316 L stainless steel
(316LSS) to provide highly proliferated metallic implants for bone regeneration. The first …

In the current work, forsterite samples with different surface area were investigated for its
antibacterial activity. Dissolution studies show that the lower degradation of forsterite …

In this study, zinc silicate hybrid scaffolds with hierarchical meso/macroporous structures
were synthesized using evaporation-induced self-assembly and sacrificial foamy templates …

Surface properties play a significant role in the biocompatibility and biodegradation of Mg-
alloy implants which primarily depends on the manufacturing route followed. In the present …

Bone engineering scaffolds with antibacterial activity satisfy the repair of bacterial infected
bone defects, which is an expected issue in clinical. In this work, 3D-printed polymer-derived …