Investigation of the effects of immersion period of simulated body fluid on the morphology and structural properties of Fe/Ni co-doped chlorapatites

Year 2023, Volume: 6 Issue: 2, 79 - 85, 18.12.2023

Serhat Keser , Tankut Ateş , Niyazi Bulut , Omer Kaygılı

https://doi.org/10.54565/jphcfum.1395724

https://izlik.org/JA89MZ33WP

Abstract

In this study, chlorapatite (ClAp) samples co-doped with Fe and Ni at different amounts were synthesized using a wet chemical method. The as-produced samples were immersed in simulated body fluid (SBF) for 14 and 28 days. The samples were characterized before and after soaking in SBF, and their morphologies and structural properties were compared to each other. It was observed that the immersion period in SBF and the amount of Fe and Ni affected the morphology and structural properties of the ClAp samples.

Keywords

Chlorapatite , Fe-doping , ; Ni-doping , SBF

References

• H.P. Wu, C. Lai, G.M. Zeng, J. Liang, J. Chen, J.J. Xu, J. Dai, X.D. Li, J.F. Liu, M. Chen, L.H. Lu, L. Hu, J. Wan, “The interactions of composting and biochar and their implications for soil amendment and pollution remediation: a review” Critical Reviews in Biotechnology, 1-11, 2016.
• B. Keochaiyom, J. Wan, G. Zeng, D. Huang, W. Xue, L. Hu, C. Huang, C. Zhang, M. Cheng, “Synthesis and application of magnetic chlorapatite nanoparticles for zinc (II), cadmium (II) and lead (II) removal from water solutions” Journal of Colloid and Interface Science, 505, 824-835, 2017.
• M. Ganjali, S. Pourhashem, M. Mozafari, “The effect of heat-treatment on the structural characteristics of nanocrystalline chlorapatite particles synthesized via an in situ wet-chemical route” Ceramics International, 41(10), 13100-13104, 2015.
• X. Han, Y. Zhang, C. Zheng, X. Yu, S. Li, W. Wei, “Enhanced Cr(VI) removal from water using a green synthesized nanocrystalline chlorapatite: Physicochemical interpretations and fixed-bed column mathematical model study” Chemosphere, 264, 128421, 2021.
• A. Durugkar, S. Tamboli, N.S. Dhoble, S.J. Dhoble, “Novel photoluminescence properties of Eu3+ doped chlorapatite phosphor synthesized via sol-gel method” Materials Research Bulletin, 97, 466-472, 2018.
• B. Nasiri-Tabrizi, W.J. Basirun, B. Pingguan-Murphy, “Mechanochemical preparation and structural characterization of Ta-doped chlorapatite nanopowders” Progress in Natural Science, 26(6), 546-554, 2016.
• J. Wan, C. Zhang, G. Zeng, D. Huang, L. Hu, C. Huang, H. Wu, L. Wang, “Synthesis and evaluation of a new class of stabilizednano-chlorapatite for Pb immobilization in sediment” Journal of Hazardous Materials, 320, 278-288, 2016.
• J. Wan, G. Zeng, D. Huang, L. Hu, P. Xu, C. Huang, R. Deng, W. Xue, C. Lai, C. Zhou, K. Zheng, X. Ren, X. Gong, “Rhamnolipid stabilized nano-chlorapatite: Synthesis and enhancement effect on Pb-and Cd-immobilization in polluted sediment” Journal of Hazardous Materials, 343, 332-339, 2018.
• S. Subramanian, T.N. Sairam, B.K. Maji, G. Jaiganesh, S.M. Jaya, H. Jena, G. Amarendra, “Lithium uptake in strontium chlorapatite - A combined experimental and first principles study” Journal of Alloys and Compounds, 731, 1247-1255, 2018.
• P. Zhai, X. Chen, Z. Zhang, L. Zhu, H. Zhang, W. Zhu, “Facile room-temperature coprecipitation of uniform barium chlorapatite nanoassemblies as a host photoluminescent material” Particuology, 37, 37-42, 2018.
• A. Rout, S. Agrawal, “Theoretical and experimental investigation of Gd3+-doped white light emitting chlorapatite Ca6Na2Y2(SiO4)6Cl2 synthesized by hydrothermal route” Indian Journal of Physics, 96(14), 4143-4154, 2022.
• Q. Yuan, P. Wang, X. Wang, B. Hu, C. Wang, X. Xing, “Nano-chlorapatite modification enhancing cadmium(II) adsorption capacity of crop residue biochars” Science of the Total Environment, 865, 161097, 2023.
• T. Kokubo, “Bioactive glass ceramics: properties and applications” Biomaterials, 12, 155-163, 1991.
• R. Yu, C. Guo, T. Li, Y. Xu, “Preparation and luminescence of blue-emitting phosphor Ca2PO4Cl: Eu2+ for n-UV white LEDs” Current Applied Physics, 13(5), 880-884, 2013.
• T. Ateş, S. Keser, N. Bulut, O. Kaygılı, “The effects of duration of ultrasonication on the morphology and structural properties of Ni-doped hydroxyapatite structure” Journal of Physical Chemistry and Functional Materials, 5 (2), 22-25, 2022.
• B.D. Cullity, “Elements of X-ray diffraction” Addison-Wesley Publishing Company, Massachusetts, 1978.
• O. Kaygili, S. Keser, “Zr/Mg, Zr/Sr and Zr/Zn co-doped hydroxyapatites: synthesis and characterization” Ceramics International, 42(7), 9270-9273, 2016.
• A. Fahami, G.W. Beall, T. Betancourt, “Synthesis, bioactivity and zeta potential investigations of chlorine and fluorine substituted hydroxyapatite” Materials Science and Engineering: C, 59, 78-85, 2016.
• O. Kaygili, S. Keser, M. Kom, N. Bulut, S.V. Dorozhkin, “The effect of simulating body fluid on the structural properties of hydroxyapatite synthesized in the presence of citric acid” Progress in Biomaterials, 5, 173-182, 2016.