Synthesis and characterization of fluorine doped tin oxide nanoparticle: An efficient catalyst for the preparation of 14-aryl-14H dibenzo [a,j]xanthene under free organic solvents conditions

Ahmed, Awad Ibrahim; Eladl, M. M.; El-Yazeed, W. S. Abo

doi:10.21608/mjcc.2020.412864

Synthesis and characterization of fluorine doped tin oxide nanoparticle: An efficient catalyst for the preparation of 14-aryl-14H dibenzo [a,j]xanthene under free organic solvents conditions

Document Type : Original Article

Authors

¹ Chemistry Department, Faculty of Science, Mansoura University

² Chemistry Department, Faculty of Science, Mansoura University, Mansoura, Egypt

10.21608/mjcc.2020.412864

Abstract

Stannic oxide SnO₂ nanoparticles were tailored using sol-gel approach, in which stannic chloride pentahydrate SnCl₄.5H₂O utilized as an inexpensive starting material. The obtained gel is dried then calcined at 450^oC to form tetragonal SnO₂ structure (6.0 - 8.2 nm). The obtained powders are doped with different loading 10-55 wt. % of HF as a source of fluoride ion, followed by calcination at 200, 300 and 400^oC. The surface acidity is examined for the fabricated samples with nonaqueous potentiometric titration versus n-butyl amine in acetonitrile. Surface acidity measurement results indicate that 45F-Sn contains the strongest acid sites. The calcination temperature 200^oC is the ideal appropriate temperature for calcination at that the overall surfaces acidity and the acid strength reach to their maximum values. The catalytic efficiency was examined via solvent-free synthesis of 14-aryl-14H dibenzo [a,j] xanthene. 45F-Sn calcined at 200^oC shows the highest catalytic activity and gives an excellent yield about 95.63%.

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