Synthesis and characterization of strontium substituted monetite coatings via mild phosphate chemical conversion.

Strontium (Sr) substitution into calcium phosphate (CaP) materials has gained acceptance in research into the enhancement of physiochemical and osteogenic potential. Conventional synthesis of metal cationic substitution into CaP coatings on metal substrate usually takes relatively high temperature (﹥100 °C) and hours of processing time. Herein, a mild phosphate chemical conversion method was developed for preparing Sr-substituted CaP coatings on surface of titanium (Ti) in the presence of increasing amount of Sr (40–60 mol%). The results indicated that the complete and even coatings could be produced on the whole surface of Ti only within 50–60 % Sr and the coatings represented a unique lamellar texture in micro/nano-scale. As Sr concentration increased, the phases of coatings were predominantly indexed to monetite and SrHPO 4 , which presented a highly oriented crystal alignment. With high content of Sr, monetite, instead of brushite, was deposited in the coatings. The possible mechanism of coating formation was proposed that α-SrHPO 4 and α-monetite were co-deposited in the acidic phosphating solution and finally a compound of (Ca x Sr 1-x)HPO 4 was produced on surface of Ti. Results revealed that coatings formed at high degree of Sr substitution exhibited relative improved mechanical and electrochemical properties. The coatings enhanced the cell focal adhesion and proliferation of BMSCs compared with that of the bare Ti. [Display omitted] • Sr-substituted CaP coating was yielded on Ti by mild phosphate chemical conversion. • The coating presented unique lamellar interwoven microstructure • CaP precipitated on Ti prior to SrP in the acidic phosphate solutions. • Exceeded Sr conduced precipitation of monetite instead of brushite in the coating. • The coating performed better contact guidance to the cells compared with bare Ti. [ABSTRACT FROM AUTHOR]