Fe and Zn co-substituted beta-tricalcium phosphate (β-TCP): Synthesis, structural, magnetic, mechanical and biological properties

“…35,36 This band is absent in the Raman spectrum of β-TCP. 29,37 Another obvious difference compared to β-TCP is that the signal corresponding to the ν 1 mode in the Raman spectrum of β-TCP is usually observed as a doublet; 29,34 however, in our case, we can see only a single peak. Possibly, this spectral change can be caused by the low crystallinity of our prepared WH powders since the synthesis was performed at low temperature.…”

“…All these bands are also present in the Raman spectra of β-TCP and associated with internal vibrations of PO 4 3– ions . The remarkable feature of all obtained Raman spectra is the clearly visible band at 920 cm –1 , which is the characteristic spectral marker for HPO 4 2– . , This band is absent in the Raman spectrum of β-TCP. , Another obvious difference compared to β-TCP is that the signal corresponding to the ν 1 mode in the Raman spectrum of β-TCP is usually observed as a doublet; , however, in our case, we can see only a single peak. Possibly, this spectral change can be caused by the low crystallinity of our prepared WH powders since the synthesis was performed at low temperature.…”

“…A previously reported Raman spectrum of terrestrial WH exhibited a strong and well-resolved doublet of the ν 1 band . On the other hand, in ion-substituted β-TCP, this band can also be observed as a singlet . Similarly, like in the FTIR spectra, there is no significant difference in relative intensity of observed bands depending on the chemical composition of the samples; particularly, the relative intensity of the band at 920 cm –1 does not change depending on the Ca-to-Zn ratio.…”

“…35 On the other hand, in ion-substituted β-TCP, this band can also be observed as a singlet. 37 Similarly, like in the FTIR spectra, there is no significant difference in relative intensity of observed bands depending on the chemical composition of the samples; particularly, the relative intensity of the band at 920 cm −1 does not change depending on the Cato-Zn ratio. This observation suggests that the number of HPO 4…”

Dissolution–Precipitation Synthesis and Characterization of Zinc Whitlockite with Variable Metal Content

“…35,36 This band is absent in the Raman spectrum of β-TCP. 29,37 Another obvious difference compared to β-TCP is that the signal corresponding to the ν 1 mode in the Raman spectrum of β-TCP is usually observed as a doublet; 29,34 however, in our case, we can see only a single peak. Possibly, this spectral change can be caused by the low crystallinity of our prepared WH powders since the synthesis was performed at low temperature.…”

“…All these bands are also present in the Raman spectra of β-TCP and associated with internal vibrations of PO 4 3– ions . The remarkable feature of all obtained Raman spectra is the clearly visible band at 920 cm –1 , which is the characteristic spectral marker for HPO 4 2– . , This band is absent in the Raman spectrum of β-TCP. , Another obvious difference compared to β-TCP is that the signal corresponding to the ν 1 mode in the Raman spectrum of β-TCP is usually observed as a doublet; , however, in our case, we can see only a single peak. Possibly, this spectral change can be caused by the low crystallinity of our prepared WH powders since the synthesis was performed at low temperature.…”

“…A previously reported Raman spectrum of terrestrial WH exhibited a strong and well-resolved doublet of the ν 1 band . On the other hand, in ion-substituted β-TCP, this band can also be observed as a singlet . Similarly, like in the FTIR spectra, there is no significant difference in relative intensity of observed bands depending on the chemical composition of the samples; particularly, the relative intensity of the band at 920 cm –1 does not change depending on the Ca-to-Zn ratio.…”

“…35 On the other hand, in ion-substituted β-TCP, this band can also be observed as a singlet. 37 Similarly, like in the FTIR spectra, there is no significant difference in relative intensity of observed bands depending on the chemical composition of the samples; particularly, the relative intensity of the band at 920 cm −1 does not change depending on the Cato-Zn ratio. This observation suggests that the number of HPO 4…”

Dissolution–Precipitation Synthesis and Characterization of Zinc Whitlockite with Variable Metal Content

“…Finally, the largest grains ranging from 1.4 to 5 µm were observed for the 0.5STO-0.5BMO sample. It is known that impurity phases in comparison with major phases can possess a completely different morphology and can be often observed in the grain boundary region [41]. In our case, for samples with a minor Mn 3 O 4 phase (Figure 5c,d), we cannot see the formation of particles with obviously different shapes or sizes.…”

The Synthesis and Characterization of Sol-Gel-Derived SrTiO3-BiMnO3 Solid Solutions

Bioactive Magnetic Materials in Bone Tissue Engineering: A Review of Recent Findings in CaP‐Based Particles and 3D‐Printed Scaffolds