Sulfamic: acid incorporated tin oxide: Acidity and activity relationship

Herein we study the activity and acidity relationship, Sulfamic acid (SA) has been incorporated with tin oxide (Sn). Acidity measurement confirmed the presence of dual-acidic sites. SA hinders the crystallization and inhibits SnO2 crystal growth. The particle size of SnO2 (2.1–8.2 nm) and the SBET v...

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Bibliographic Details
Published in:Journal of alloys and compounds 2021-03, Vol.858, p.158192, Article 158192
Main Authors: Abo El-Yazeed, W.S., Eladl, M., Ahmed, Awad I., Ibrahim, Amr Awad
Format: Article
Language:English
Subjects:
Acidic oxides
Aromatic compounds
Catalytic activity
Crystal growth
Crystallization
Heat treatment
Heterogeneous catalysis
Nanoparticles
Roasting
Sulfamic acid
Surface acidity
Surface area
Tin
Tin dioxide
Tin oxide
Tin oxides
Xanthene
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Summary:Herein we study the activity and acidity relationship, Sulfamic acid (SA) has been incorporated with tin oxide (Sn). Acidity measurement confirmed the presence of dual-acidic sites. SA hinders the crystallization and inhibits SnO2 crystal growth. The particle size of SnO2 (2.1–8.2 nm) and the SBET values of samples were found to be dependent on the SA content and calcination temperatures. The increase in the surface acidity was found to occur with increasing the thermal treatment up to 450 °C, while further increasing of calcination temperature is accompanied by a decrease in the surface acidity. Lewis and Bronsted acid sites play important role in the catalytic activity, The SA-Sn nanoparticles are efficient for the synthesis of 14-aryl-14H-dibenzo[a,j] xanthene under solvent-free conditions in good to excellent yields and the sample contains 25 wt% SA has the highest activity than the others under the same reaction conditions. [Display omitted] •Sulfamic acid incorporated Tin oxide has been studied as a solid acid Catalyst.•14-aryl-14H dibenzo [a,j] xanthene yield increases as the acid Strength and Bronsted/ Lewis ratio increases.•25% Sulphamic acid-Tin oxide gives the highest activity and highest yield.•The presence of sulfamic acid stabilize and keep the tetragonal phase of SnO2 in nanoscale even at 650 °C.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2020.158192