In the present work,
a series of zinc whitlockite (Ca
x
Zn
y
(HPO
4
)
2
(PO
4
)
12
) powders was synthesized by
a low-temperature dissolution–precipitation process for the
first time. The phase conversion from calcium hydroxyapatite to zinc
whitlockite occurred in an acidic medium in the presence of Zn
2+
ions. Variable chemical composition of the synthesis products
was achieved by changing Ca-to-Zn molar ratio in the reaction mixture.
Investigation of the phase evolution as a function of time demonstrated
that phase-pure zinc whitlockite powders can be synthesized in just
3 h. It is also demonstrated that single-phase products can be obtained
when the Ca-to-Zn ratio in the reaction medium is in the range from
9 to 30. With higher or lower ratios, neighboring crystal phases such
as scholzite or calcium hydroxyapatite were obtained. The morphology
of the synthesized powders was found to be dependent on the chemical
composition, transforming from hexagonal to rhombohedral plates with
the increase of Zn content. Thermal stability studies revealed that
the synthesized compounds were thermally unstable and decomposed upon
heat treatment.
In this study, the reconstruction peculiarities of sol–gel derived Mg2−xMx/Al1 (M = Ca, Sr, Ba) layered double hydroxides were investigated. The mixed metal oxides (MMO) were synthesized by two different routes. Firstly, the MMO were obtained directly by heating Mg(M)–Al–O precursor gels at 650 °C, 800 °C, and 950 °C. These MMO were reconstructed to the Mg2−xMx/Al1 (M = Ca, Sr, Ba) layered double hydroxides (LDHs) in water at 50 °C for 6 h (pH 10). Secondly, in this study, the MMO were also obtained by heating reconstructed LDHs at the same temperatures. The synthesized materials were characterized using X-ray powder diffraction (XRD) analysis and scanning electron microscopy (SEM). Nitrogen adsorption by the Brunauer, Emmett, and Teller (BET) and Barrett, Joyner, and Halenda (BJH) methods were used to determine the surface area and pore diameter of differently synthesized alkaline earth metal substituted MMO compounds. It was demonstrated for the first time that the microstructure of reconstructed MMO from sol–gel derived LDHs showed a “memory effect”.
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