Abstract
Modern materials science, both in terms of functional and structural materials, is actively developing towards the creation of structures with a given ordering. A wide range of methods involves ordering the structure according to a template shape. Template synthesis is one of the mots wide-spread approaches. Most often, the template synthesis method is implemented under conditions of limiting the growth of the phase due to the geometry of the template. In the present work, a template electrochemical method is considered for calcium hydroxyapatite (HAp) coating synthesis, based on the replication of the planar template texture during deposition. In this case, the template is an array of silver microparticles immobilized on an electrically conductive substrate, separated by an insulator layer. The developed approach is similar to the mask metallization widely used in planar technology. In this work, the possibility of the template pulsed electrodeposition of ceramics rather than metal is shown using HAp as an example. This approach is interesting for materials science, in particular, for obtaining micro-ordered hydroxyapatite structures—a crystallochemical analogue of the inorganic bone tissue component—on the surface of bone implants, which can be implemented to improve their biomedical characteristics. As a result of our study, we experimentally determined the conditions for obtaining the composite coating TiO2/Ag/Ca10(PO4)6(OH)2 with controlled phase structure, topology and localization of components on the surface, which was confirmed by Scanning Electron Microscopy, Energy Dispersive Spectroscopy, and X-ray Diffraction (SEM, EDS and XRD). The absence of cytotoxicity for the osteoblast-like cells of the developed coating was revealed by cytological tests.
Highlights
Various artificial materials, such as ceramics, metals, polymers and their composites, are used to replace affected bones [1,2,3,4,5]
We develop the technique of electrochemical HAp synthesis on the TiO2/Ag template surface in order to create a composite TiO2/Ag/HAp film with a controlled structure and composition: pulsed electrochemical deposition, in contrast to DC deposition, achieves the replication of the template structure by depositing hydroxyapatite
Silver was deposited in a polypropylene cell with stirring, where a Ti substrate coated with a perforated TiO2 xerogel film was used as a working electrode, and Ag electrode was used as a counter electrode
Summary
Various artificial materials, such as ceramics, metals, polymers and their composites, are used to replace affected bones [1,2,3,4,5]. A number of works describe composite coatings based on TiO2/Ag/HAp [38,39,40,41] These coatings have good biocompatibility and antibacterial properties. The coating of the same type is obtained over the entire surface area This makes these synthesis methods limited in terms of controlling the localization of the structure and composition. The developed synthesis approach is promising for use in bone implantation due to its ability to control the micron structure of the deposited hydroxyapatite by varying the texture of the initial template and composition of the composite coating that combines a two-level relief hierarchy [43,44,45] formed by xerogel globules and micron electrochemical deposit and the presence of HAp and silver
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
