Biomaterials have been widely used in tissue engineering applications at an increasing rate
in recent years. The increased clinical demand for safe scaffolds, as well as the diversity and …

Fourier transform infrared spectroscopy (FTIR) has been used extensively for chemical
characterization of mineralized tissues in the past few decades. FTIR is an ideal technique to …

Purpose Compositional tailoring is gaining more attention in the development of advanced
biomimetic nanomaterials. In this study, we aimed to prepare advanced multi-substituted …

The biological apatite, whose the bone and teeth mineral phases are composed, remarkably
differs from stoichiometric hydroxyapatite (HAp, Ca10 (PO4) 6 (OH) 2, Ca/P= 1.667). Indeed …

Introducing synthetic bone substitutes into the clinic was a major breakthrough in the
regenerative medicine of bone. Despite many advantages of currently available bone …

Developing multi-doped bioceramics that possess biological multifunctionality is becoming
increasingly attractive and promising for bone tissue engineering. In this view innovative Sr …

Dense iron-doped akermanite ceramics with 0.3, 0.6 and 0.9 mol% of Fe 3+ were
synthesized via high-speed planetary ball milling and subsequently subjected to sintering at …

Bone is generally known as calcium-apatite which contains considerable amounts of various
trace elements, mainly carbonate. Thus, bone is usually referred as carbonated …

Osteoblast behavior playing an important role in the biointegration of the Ti implant with host
bone in vivo can be regulated by surface properties and magnetic field. In order to endow …

(OH) 2), in comparison with stoichiometric pure HAP, chosen as control. Each bio-ceramic
was deposited as thin multilayers self-assembled substrate (scaffold) and chemically …