In-situ synthesis of SnO/CuSnO3 nanostructures to catalyze azo dye degradation, CO2 reduction, and amines direct alkylation reactions under visible light

Mohsen Padervand; Alireza Bargahi; Bagher Eftekhari-Sis; Mina Saadi; Shahnaz Ghasemi; Elmuez A. Dawi; Abdelkader Labidi; Ghodrat Mahmoudi; Masoumeh Servati Gargari

Results in Engineering (Sep 2024)

In-situ synthesis of SnO/CuSnO3 nanostructures to catalyze azo dye degradation, CO2 reduction, and amines direct alkylation reactions under visible light

Mohsen Padervand,
Alireza Bargahi,
Bagher Eftekhari-Sis,
Mina Saadi,
Shahnaz Ghasemi,
Elmuez A. Dawi,
Abdelkader Labidi,
Ghodrat Mahmoudi,
Masoumeh Servati Gargari

Affiliations

Mohsen Padervand: Department of Chemistry, Faculty of Science, University of Maragheh, P.O. Box 55181-83111, Maragheh, Iran; Corresponding author.
Alireza Bargahi: Faculty of Chemistry, Razi University, Kermanshah, 67149, Iran
Bagher Eftekhari-Sis: Department of Chemistry, Faculty of Science, University of Maragheh, P.O. Box 55181-83111, Maragheh, Iran
Mina Saadi: Department of Chemistry, Faculty of Science, University of Maragheh, P.O. Box 55181-83111, Maragheh, Iran
Shahnaz Ghasemi: Sharif Energy, Water and Environment Institute, Sharif University of Technology, Azadi Avenue, Tehran, P.O.Box, 11365-8639, Tehran, Iran
Elmuez A. Dawi: College of Humanities and Sciences, Department of Mathematics and Sciences, Ajman University, P.O. Box 346, United Arab Emirates
Abdelkader Labidi: School of Environmental Science and Engineering, Shaanxi University of Science and Technology, Xi'an, 710021, PR China; Corresponding author.
Ghodrat Mahmoudi: Department of Chemistry, Faculty of Science, University of Maragheh, P.O. Box 55181-83111, Maragheh, Iran; Chemistry Department, Faculty of Engineering and Natural Sciences, Istinye University, Sarıyer, Istanbul, 34396, Turkey; Western Caspian University, Baku, Azerbaijan
Masoumeh Servati Gargari: Western Caspian University, Baku, Azerbaijan

Journal volume & issue: Vol. 23
p. 102515

Abstract

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The extensive use of photocatalysis to address environmental concerns, energy production, and organic transformations has attracted attention in recent decades. The SnO/CSO photocatalytic materials were fabricated through a single-step hydrothermal method and comprehensively characterized using a muti-technique approach to demonstrate the physicochemical, morphological, and electronic features. According to the photocatalytic experiments, the SnO/CSO could remove >96 % of acid blue 92 (AB92) azo dye under optimum conditions, with rate constant 2.37 × 10−2 min−1. Furthermore, the photocatalyst significantly outperformed commercial TiO2 (P25), in reducing CO2 to CO and CH4 with a production rate of 10.8 and 1.18 μmol g−1 h−1, respectively, under visible light irradiation. The successful direct alkylation of amines to valuable organic compounds within 10 min of the reaction time with a conversion selectivity of >90 % was another capability of the materials, making it a good candidate for pharmaceutical synthesis purposes.

Published in Results in Engineering

ISSN: 2590-1230 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Technology
Website: https://www.journals.elsevier.com/results-in-engineering

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