The present work investigates the
crystallization and phase evolution
of amorphous calcium phosphate (ACP) partially substituted with smaller
(Mg2+, Zn2+) and larger (Sr2+, Ba2+) divalent ions in the range from 1 to 10 mol % (M/P = 1.5:1).
It has been demonstrated that the crystallization of ACP to tricalcium
phosphate (TCP) and subsequent phase transformations between TCP polymorphs
strongly depend on the nature and concentration of the substituents
in the ACP matrix. Two different effects induced by the presence of
foreign ions were observed. Substitution with smaller ions did not
affect the crystallization temperature but promoted the formation
of β-TCP at a significantly lower temperature compared to the
phase evolution of pristine ACP. Moreover, the effect of Mg was found
to be more significant than that of Zn in the transformation of metastable
α-TCP to β-TCP. On the other hand, substitution with larger
ions retarded the crystallization process, which was observed at elevated
temperatures. While the substitution level of 10 mol % of Sr did not
affect the thermal stability of metastable α-TCP, the presence
of 10 mol % of Ba stabilized α-TCP crystal structure and totally
prevented the phase transition to β-TCP.
The present study investigates thermally induced crystallization and phase evolution of amorphous calcium phosphate (ACP) partially substituted with Fe3+ ions (M/P = 1.5 : 1). It was demonstrated that the...
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