The current need for long lasting implants and bone substitutes characterized by
biocompatibility, bioactivity and mechanical properties, without the immune rejection is a …

Functional graphene nanomaterials (FGNs) are fast emerging materials with extremely
unique physical and chemical properties and physiological ability to interfere and/or interact …

Hydroxyapatite (HA) is an attractive bioceramic for hard tissue repair and regeneration due
to its physicochemical similarities to natural apatite. However, its low fracture toughness …

Hydroxyapatite has become an important coating material for bioimplants, following the
introduction of synthetic HAp in the 1950s. The HAp coatings require controlled surface …

Variety of ion-doped apatite coatings, especially strontium substituted hydroxyapatite
(SrHA), have attracted eventful attention for medical metal surface modifications due to their …

The rapid degradation of magnesium (Mg) alloy implants erodes mechanical performance
and interfacial bioactivity, thereby limiting their clinical utility. Surface modification is among …

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 …

An increase in the world population and its life expectancy, as well as the ongoing concern
about our physical appearance, have elevated the relevance of dental implantology in …

A revision on ceramic/graphene composites is presented. The more representative results
for a wide number of bulk composites are compared, making special emphasis on their …

A new kind of functionally graded material (FGM) that mimics the inner porous structure and
outer dense layer of human bone was produced using powder metallurgy. The inner part of …