Synthesis of Ti doped Ca-BiFO for the enhanced photodegradation of moxifloxacin

In recent years, the continuously increasing demand for wastewater treatment has increased research on perovskite-based materials with narrow band gaps. Titanium-doped calcium bismuth ferrites (CaBiFe 1− x Ti x O 3 x = 0.00-15%) were successfully synthesized using the co-precipitation method. X-Ray...

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Veröffentlicht in:	New journal of chemistry 2022-10, Vol.46 (41), p.19848-19856
Hauptverfasser:	Jamshaid, Muhammad, Khan, Muhammad Imran, Fernandez, Javier, Shanableh, Abdallah, Hussain, Tajamal, Rehman, Aziz ur
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container_end_page	19856
container_issue	41
container_start_page	19848
container_title	New journal of chemistry
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creator	Jamshaid, Muhammad Khan, Muhammad Imran Fernandez, Javier Shanableh, Abdallah Hussain, Tajamal Rehman, Aziz ur
description	In recent years, the continuously increasing demand for wastewater treatment has increased research on perovskite-based materials with narrow band gaps. Titanium-doped calcium bismuth ferrites (CaBiFe 1− x Ti x O 3 x = 0.00-15%) were successfully synthesized using the co-precipitation method. X-Ray diffraction data and SEM micrographs revealed the phase purity and nanocrystalline nature (rhombohedral lattice) of the CaBiFe 1− x Ti x O 3 x = 0.00-15% samples. The energy band gap of the Ca-BiFO 3 nanoparticles was tuned by the substitution of Ti 4+ ions in the range of 2.96-2.1 eV. The Ti 4+ substituted Ca-BiFO 3 nanoparticles exhibited much higher photocatalytic performance for antibiotics (moxifloxacin) under controlled UV-visible light irradiation compared to pristine Ca-BiFO 3 nanoparticles. The high concentration of moxifloxacin in water causes environmental problems, such as antibacterial resistance in bacteria and threats to ecology. The CaBiFe 85% Ti 15% O 3 nanoparticles showed 89.16% moxifloxacin degradation after irradiation for only 60 min. The significant changes in the photocatalytic properties of the sample were due to the aliovalency of Fe 3+ and Ti 4+ , and differences in ionic radii and oxygen vacancies. In recent years, the continuously increasing demand for wastewater treatment has increased research on perovskite-based materials with narrow band gaps.
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Titanium-doped calcium bismuth ferrites (CaBiFe 1− x Ti x O 3 x = 0.00-15%) were successfully synthesized using the co-precipitation method. X-Ray diffraction data and SEM micrographs revealed the phase purity and nanocrystalline nature (rhombohedral lattice) of the CaBiFe 1− x Ti x O 3 x = 0.00-15% samples. The energy band gap of the Ca-BiFO 3 nanoparticles was tuned by the substitution of Ti 4+ ions in the range of 2.96-2.1 eV. The Ti 4+ substituted Ca-BiFO 3 nanoparticles exhibited much higher photocatalytic performance for antibiotics (moxifloxacin) under controlled UV-visible light irradiation compared to pristine Ca-BiFO 3 nanoparticles. The high concentration of moxifloxacin in water causes environmental problems, such as antibacterial resistance in bacteria and threats to ecology. The CaBiFe 85% Ti 15% O 3 nanoparticles showed 89.16% moxifloxacin degradation after irradiation for only 60 min. The significant changes in the photocatalytic properties of the sample were due to the aliovalency of Fe 3+ and Ti 4+ , and differences in ionic radii and oxygen vacancies. 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Titanium-doped calcium bismuth ferrites (CaBiFe 1− x Ti x O 3 x = 0.00-15%) were successfully synthesized using the co-precipitation method. X-Ray diffraction data and SEM micrographs revealed the phase purity and nanocrystalline nature (rhombohedral lattice) of the CaBiFe 1− x Ti x O 3 x = 0.00-15% samples. The energy band gap of the Ca-BiFO 3 nanoparticles was tuned by the substitution of Ti 4+ ions in the range of 2.96-2.1 eV. The Ti 4+ substituted Ca-BiFO 3 nanoparticles exhibited much higher photocatalytic performance for antibiotics (moxifloxacin) under controlled UV-visible light irradiation compared to pristine Ca-BiFO 3 nanoparticles. The high concentration of moxifloxacin in water causes environmental problems, such as antibacterial resistance in bacteria and threats to ecology. The CaBiFe 85% Ti 15% O 3 nanoparticles showed 89.16% moxifloxacin degradation after irradiation for only 60 min. The significant changes in the photocatalytic properties of the sample were due to the aliovalency of Fe 3+ and Ti 4+ , and differences in ionic radii and oxygen vacancies. 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The significant changes in the photocatalytic properties of the sample were due to the aliovalency of Fe 3+ and Ti 4+ , and differences in ionic radii and oxygen vacancies. In recent years, the continuously increasing demand for wastewater treatment has increased research on perovskite-based materials with narrow band gaps.</abstract><doi>10.1039/d2nj03084e</doi><tpages>9</tpages></addata></record>
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title	Synthesis of Ti doped Ca-BiFO for the enhanced photodegradation of moxifloxacin
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