Porous ceria materials for efficient direct conversion of carbon dioxide and methanol to dimethyl carbonate
Journal
Materials Advances
Journal Volume
5
Journal Issue
16
Start Page
6605
End Page
6617
ISSN
2633-5409
Date Issued
2024-07-15
Author(s)
Zhuxian Yang
Justin Tay Zheng
Xinhuan Lu
Monica Mengdie Lin
Dongming Cai
Yankun Wang
Yanqiu Zhu
Yongde Xia
DOI
10.1039/d4ma00629a
Abstract
Ceria (CeO2) is widely considered as a superior catalytic material for the direct conversion of carbon dioxide (CO2) and methanol into dimethyl carbonate (DMC). Developing porous structures is a versatile way to increase the surface area, to create defects, and to improve the mass transfer of the resulting materials, consequently enhancing their catalytic performance. However, most of the reported preparation methods of porous CeO2 involve complex hydrothermal (100-120 °C) or refluxing (95-140 °C) processes followed by calcination at temperatures of 500-650 °C. In this work, we report a simple and low temperature approach to prepare porous CeO2, which involves mixing the raw materials at room temperature, followed by drying and then calcining at 450 °C. A DMC formation rate of 14.8 mmol g−1 h−1 is achieved for one of the obtained porous CeO2, which is much higher than those of the most reported CeO2 (0.51-11 mmol g−1 h−1). Further studies show that the DMC formation rate has a positive link to the parameters following the order: the CO2 uptake amount at 25 °C, the amount of weak acidity, the Ce3+ concentration, the amount of weak basicity, and the BET surface area of the CeO2 catalysts in this study. In addition, there seems to be an optimum oxygen vacancy concentration of the CeO2 samples for the DMC formation rate. This study provides a simple strategy for the preparation of a porous CeO2 material as a highly efficient catalyst for the catalytic conversion of CO2, which can not only mitigate the greenhouse gas CO2, but also turn it into value-added and versatile chemical DMC.
Publisher
Royal Society of Chemistry (RSC)
Type
journal article