Investigation and optimization of In-Vitro behaviour of Perovskite barium titanate as a scaffold and protective coatings

The piezoelectric effect is widely known to have a significant physiological function in bone development, remodeling, and fracture repair. As a well-known piezoelectric material, barium titanate is particularly appealing as a scaffold layer to improve bone tissue engineering applications. Currently...

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Veröffentlicht in:	Journal of the mechanical behavior of biomedical materials 2024-01, Vol.149, p.106215-106215, Article 106215
Hauptverfasser:	SanaUllah, Ifra, Khan, Sidra, Ali, Daoud, Sajjad, Amna, Shamaila, S, Kanwal, Zakia, Sabri, Anjum N, Atiq, Shahid, Naseem, Shahzad, Riaz, Saira
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Schlagworte:	Barium - chemistry Escherichia coli Oxides Titanium - chemistry Titanium - pharmacology
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container_title	Journal of the mechanical behavior of biomedical materials
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creator	SanaUllah, Ifra Khan, Sidra Ali, Daoud Sajjad, Amna Shamaila, S Kanwal, Zakia Sabri, Anjum N Atiq, Shahid Naseem, Shahzad Riaz, Saira
description	The piezoelectric effect is widely known to have a significant physiological function in bone development, remodeling, and fracture repair. As a well-known piezoelectric material, barium titanate is particularly appealing as a scaffold layer to improve bone tissue engineering applications. Currently, the chemical bath deposition method is used to prepare green synthesized barium titanate coatings to improve mechanical and biological characteristics. Molarity of the solutions, an essential parameter in chemical synthesis, is changed at room temperature (0.1-1.2 Molar) to prepare coatings. The XRD spectra for as deposited coatings indicate amorphous behavior, while polycrystalline nature of coatings is observed after annealing (300 °C). Coatings prepared with solutions of relatively low molarities, i.e. from 0.1 to 0.8 M, exhibit mixed tetragonal - cubic phases. However, the tetragonal phase of Perovskite barium titanate is observed using solution molarities of 1.0 M and 1.2 M. Relatively high value of transmission, i.e. ∼80%, is observed for the coatings prepared with high molarities. Band gap of annealed coatings varies between 3.47 and 3.70 eV. For 1.2 M sample, the maximum spontaneous polarization (P ) is 0.327x10 (μC/cm ) and the residual polarization (P ) is 0.072x10 (μC/cm ). For 1.2M solution, a high hardness value (1510 HV) is recorded, with a fracture toughness of 28.80 MPam . Low values of weight loss, after dipping the coatings in simulated body fluid, is observed. The antibacterial activity of BaTiO is tested against E. coli and Bacillus subtilis. Drug encapsulation capability is also tested for different time intervals. As a result, CBD-based coatings are a promising nominee for use as scaffold and protective coatings.
doi_str_mv	10.1016/j.jmbbm.2023.106215
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As a well-known piezoelectric material, barium titanate is particularly appealing as a scaffold layer to improve bone tissue engineering applications. Currently, the chemical bath deposition method is used to prepare green synthesized barium titanate coatings to improve mechanical and biological characteristics. Molarity of the solutions, an essential parameter in chemical synthesis, is changed at room temperature (0.1-1.2 Molar) to prepare coatings. The XRD spectra for as deposited coatings indicate amorphous behavior, while polycrystalline nature of coatings is observed after annealing (300 °C). Coatings prepared with solutions of relatively low molarities, i.e. from 0.1 to 0.8 M, exhibit mixed tetragonal - cubic phases. However, the tetragonal phase of Perovskite barium titanate is observed using solution molarities of 1.0 M and 1.2 M. Relatively high value of transmission, i.e. ∼80%, is observed for the coatings prepared with high molarities. Band gap of annealed coatings varies between 3.47 and 3.70 eV. For 1.2 M sample, the maximum spontaneous polarization (P ) is 0.327x10 (μC/cm ) and the residual polarization (P ) is 0.072x10 (μC/cm ). For 1.2M solution, a high hardness value (1510 HV) is recorded, with a fracture toughness of 28.80 MPam . Low values of weight loss, after dipping the coatings in simulated body fluid, is observed. The antibacterial activity of BaTiO is tested against E. coli and Bacillus subtilis. Drug encapsulation capability is also tested for different time intervals. 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As a well-known piezoelectric material, barium titanate is particularly appealing as a scaffold layer to improve bone tissue engineering applications. Currently, the chemical bath deposition method is used to prepare green synthesized barium titanate coatings to improve mechanical and biological characteristics. Molarity of the solutions, an essential parameter in chemical synthesis, is changed at room temperature (0.1-1.2 Molar) to prepare coatings. The XRD spectra for as deposited coatings indicate amorphous behavior, while polycrystalline nature of coatings is observed after annealing (300 °C). Coatings prepared with solutions of relatively low molarities, i.e. from 0.1 to 0.8 M, exhibit mixed tetragonal - cubic phases. However, the tetragonal phase of Perovskite barium titanate is observed using solution molarities of 1.0 M and 1.2 M. Relatively high value of transmission, i.e. ∼80%, is observed for the coatings prepared with high molarities. Band gap of annealed coatings varies between 3.47 and 3.70 eV. For 1.2 M sample, the maximum spontaneous polarization (P ) is 0.327x10 (μC/cm ) and the residual polarization (P ) is 0.072x10 (μC/cm ). For 1.2M solution, a high hardness value (1510 HV) is recorded, with a fracture toughness of 28.80 MPam . Low values of weight loss, after dipping the coatings in simulated body fluid, is observed. The antibacterial activity of BaTiO is tested against E. coli and Bacillus subtilis. Drug encapsulation capability is also tested for different time intervals. 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subjects	Barium - chemistry Escherichia coli Oxides Titanium - chemistry Titanium - pharmacology
title	Investigation and optimization of In-Vitro behaviour of Perovskite barium titanate as a scaffold and protective coatings
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