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Theoretical investigation of NH3-SCR processes over zeolites: A review

International Journal of Quantum Chemistry
DOI: 10.1002/qua.24844
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Abstract

The selective catalytic reduction (SCR) of NOx compounds with NH3 is a hot topic in recent years. Among various catalysts, zeolites are proved to be efficient and promising for NH3-SCR, yet the whole processes and intrinsic mechanism are still not well understood due to the structural complexity of zeolites. With the improvement of theoretical chemistry techniques, quantum-chemical calculations are now capable of modeling the structure, acidity, adsorption, and ultimately reaction pathways over zeolites to some extent. In this review, a brief summary of relevant concepts of NH3-SCR is presented. Cluster approaches, embedded techniques, and periodic treatments are described as three main methods. Details of quantum-chemical investigations toward the key issues such as, the structure of active sites, the adsorption of small molecules, and the reaction mechanism of NH3-SCR over zeolites are discussed. Finally, a perspective for future theoretical research is given.

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Mao, Y., Wang, H. F., & Hu, P. (2015, May 1). Theoretical investigation of NH3-SCR processes over zeolites: A review. International Journal of Quantum Chemistry. John Wiley and Sons Inc. https://doi.org/10.1002/qua.24844

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