Creation of Crystalline Orientation of Tin(II) Oxide Polycrystals with High Photocatalytic Activity

• Published in: Molecules (Basel, Switzerland) Vol. 30; no. 13; p. 2870
• Main Authors: Kuznetsova, Svetlana A., Khalipova, Olga S., Chen, Yu-Wen
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 06.07.2025; MDPI
• Subjects: Ammonia; Azo compounds; Carbonates; crystallographic texture; destruction of organic dyes; microwave synthesis; Microwaves; Morphology; Particle size; Photocatalysis; Purification; Sewage; Tin; tin(II) oxide; Wastewater; Japan; Russia; microwave synthesis; tin(II) oxide; crystallographic texture; destruction of organic dyes; photocatalysis
• ISSN: 1420-3049; 1420-3049
• DOI: 10.3390/molecules30132870

Tin(II) oxide is a promising material for photocatalytic wastewater treatment. However, the established relationships between particle size, shape, and photocatalytic activity of SnO are contradictory, indicating the influence of other factors. In this work, the effect of the SnO crystallographic texture on its band gap and photocatalytic activity was shown for the first time. The relationship between the methods (microwave and hydrothermal microwave) and synthesis conditions (time, pressure, and chemical composition of the suspension) of polycrystalline tin oxide(II) and the crystallographic texture was studied. The crystallographic texture was estimated by the Harris method using the repeatability factor and the Lotgering coefficient. The formation of crystallites oriented in the growth plane (00l) was facilitated by the carbonate medium of the suspension. In the ammonia medium, crystallites were preferably formed in the plane (h0l). Increasing the time and pressure leads to the recrystallization of SnO. The band gap energy of the SnO increases from 3.0 to 3.6 eV, and the rate of photodestruction of methyl orange decreases with the growth of crystallites in the (00l) plane from 17 to 40%.