Effects of surface modification processes on the adhesion of hydroxyapatite layers coated onto titanium substrates

Abstract: Hydroxyapatite (HA, Ca10(PO4)6(OH)2) is a biomaterial exploited in bone graft and implant coating applications. The present study aimed at developing the technique employed in coating hydroxyapatite onto internal fixation titanium plates. The coating consisted of hydroxyapatite layer and titanium dioxide layer, functioning as a buffer layer between hydroxyapatite and titanium plate substrate. The titanium substrates were i) untreated; ii) polished and immersed in 70% nitric acid; and iii) immersed in nitric ac… Show more

“…Capacitance measurements were taken using gold glue electrodes on pellets crushed to a diameter of 9 mm using a pressing machine to determine electrical conductivity, loss, and dielectric constant at 300 K for alternating current (AC). Khan et al 25–29 have previously utilized a technique with similar results. Using eqn (3), we were able to determine the ε r . ε r = Cd / ε o A …”

“…The pervious researchers have showcased that Ti-doped ZnO nanoparticles exhibit both ferromagnetic and photoluminescent behavior, opening up exciting possibilities for combining magnetic and optical information processing in neuromorphic computing, thus adding a new dimension to cognitive computing. 26 The incorporation of ferromagnetic dopants like Co, Ni, Yb, Gd, and Ti into ZnO nanoparticles represents a promising path forward in the realm of neuromorphic computing. 20 These materials offer a unique combination of magnetic and semiconductor properties, setting the ground for the development of artificial synapses with highly tunable functionalities.…”

Enhanced electrical and magnetic properties of (Co, Yb) co-doped ZnO memristor for neuromorphic computing

“…Capacitance measurements were taken using gold glue electrodes on pellets crushed to a diameter of 9 mm using a pressing machine to determine electrical conductivity, loss, and dielectric constant at 300 K for alternating current (AC). Khan et al 25–29 have previously utilized a technique with similar results. Using eqn (3), we were able to determine the ε r . ε r = Cd / ε o A …”

“…The pervious researchers have showcased that Ti-doped ZnO nanoparticles exhibit both ferromagnetic and photoluminescent behavior, opening up exciting possibilities for combining magnetic and optical information processing in neuromorphic computing, thus adding a new dimension to cognitive computing. 26 The incorporation of ferromagnetic dopants like Co, Ni, Yb, Gd, and Ti into ZnO nanoparticles represents a promising path forward in the realm of neuromorphic computing. 20 These materials offer a unique combination of magnetic and semiconductor properties, setting the ground for the development of artificial synapses with highly tunable functionalities.…”

Enhanced electrical and magnetic properties of (Co, Yb) co-doped ZnO memristor for neuromorphic computing

Multidimensional calcium phosphate coatings for bio activation of titanium implant surfaces using methodological approach

Synthesis and characterizations of metal ions doped barium strontium titanate (BST) nanomaterials for photocatalytic and electrical applications: A mini review