Hydroxyapatite-bioglass nanocomposites: Structural, mechanical, and biological aspects

Olga Shikimaka; Mihaela Bivol; Bogdan A Sava; Marius Dumitru; Christu Tardei; Beatrice G Sbarcea; Daria Grabco; Constantin Pyrtsac; Daria Topal; Andrian Prisacaru; Vitalie Cobzac; Viorel Nacu

doi:10.3762/bjnano.13.123

Hydroxyapatite-bioglass nanocomposites: Structural, mechanical, and biological aspects

Beilstein J Nanotechnol. 2022 Dec 12:13:1490-1504. doi: 10.3762/bjnano.13.123. eCollection 2022.

Authors

Olga Shikimaka¹, Mihaela Bivol^#¹, Bogdan A Sava^#^{2

3}, Marius Dumitru^#², Christu Tardei^#⁴, Beatrice G Sbarcea^#⁴, Daria Grabco^#¹, Constantin Pyrtsac^#¹, Daria Topal^#¹, Andrian Prisacaru^#¹, Vitalie Cobzac^#⁵, Viorel Nacu^#⁵

Affiliations

¹ Institute of Applied Physics, 5 Academiei str., MD-2028, Chisinau, Republic of Moldova.
² National Institute for Laser, Plasma and Radiation Physics, Laser Department, 409th Atomistilor str., RO-77125, Magurele, Bucharest, Romania.
³ University Politehnica Bucharest, 313 Splaiul Independentei, Bucharest, 060042, Romania.
⁴ National Institute for R&D in Electrical Engineering ICPE-CA, 313 Splaiul Unirii, 031066, Bucharest, Romania.
⁵ Nicolae Testemitanu State University of Medicine and Pharmacy, 165 Stefan cel Mare si Sfant ave., MD-2004, Chisinau, Republic of Moldova.

^# Contributed equally.

Abstract

This research work focuses on the fabrication and study of a series of nanocomposites consisting of two types of hydroxyapatite (HA), obtained by precipitate (HAP) and sol-gel (HAG) methods, and a boro-silico-phosphate bioglass. The microstructure and chemical, mechanical, and biological properties as functions of three factors, namely (i) the type of hydroxyapatite, (ii) glass content, and (iii) sintering temperature, were investigated. It was found that all of these factors affect the final composition and microstructure, especially, porosity, which shows significantly lower values for HAP-based composites than for HAG-based ones and higher values for higher glass content. This, in turn, has an impact on the microhardness, which exhibits a strong correlation with porosity, as well as on the mineralization capability and cell viability due to the different dissolution rate.

Keywords: bioactivity; hardness; microstructure; nanocomposites; porosity.

Grants and funding

This research work was funded by the National Agency for Research and Development of Moldova – project no. ANCD 20.80009.5007.18 and by the Romanian Ministry of Research, Innovation and Digitization, Agency of Romanian Ministry of Research and Innovation, CNCS/CCCDI—UEFISCDI, through the Core Program PN 16N/2019 LAPLAS VI, grant no. PN 19 15 01 01 and through Program I—Development of the National R & D System, Subprogram 1.2–Institutional Performance–Projects for Excellence Financing in RDI, contract no. 13PFE/2021.