Effect of co-precipitation plus spray-drying of nano-CaF2 on mechanical and fluoride properties of nanocomposite.

Fluoride (F)-releasing restoratives typically are either weak mechanically or release only low levels of F ions. The objectives of this study were to: (1) develop a novel photo-cured nanocomposite with strong mechanical properties and high levels of sustained F ion release via a two-step "co-precipitation + spray-drying" technique to synthesize CaF 2 nanoparticles (nCaF 2); and (2) investigate the effect of spray-drying treatment after co-precipitation of nCaF 2 on mechanical properties and F ion release of composite. Two types of CaF 2 particles were synthesized: A co-precipitation method yielded CaF 2 cp; "co-precipitation + spray-drying" yielded nCaF 2 cpsd. Composites were fabricated with fillers of: (1) 0% CaF 2 + 70% glass; (2) 10% CaF 2 cp + 60% glass; (3) 15% CaF 2 cp + 55% glass; (4) 20% CaF 2 cp + 50% glass; (5) 10% nCaF 2 cpsd + 60% glass; (6) 15% nCaF 2 cpsd + 55% glass; and (7) 20% nCaF 2 cpsd + 50% glass. A commercial F-releasing nanocomposite served as control. The nCaF 2 cpsd had much smaller particle size (median = 32 nm) and narrower distribution (22–57 nm) than CaF 2 cp (median = 5.25 μm, 162 nm–67 μm). The composite containing nCaF 2 cpsd had greater flowability, flexural strength, elastic modulus and hardness than CaF 2 cp composite and commercial control composite. At 84-day immersion in water, the nanocomposites containing 20% nCaF 2 cpsd had 65 times higher cumulative F release, and 77 times greater long-term F-release rate, than commercial control. A novel two-step "co-precipitation + spray-drying" technique of synthesizing nCaF 2 was developed. The photo-cured nanocomposite containing 20% nCaF 2 cpsd possessed strong mechanical properties and excellent long-term F-release ability, and hence is promising for dental restoration applications to inhibit secondary caries. [ABSTRACT FROM AUTHOR]