Adsorption of NO and N2O on Fe-BEA and H-BEA zeolites |
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Authors: | Yuli Wang Biaohua Chen Quanhui Guo Ning Liu |
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Affiliation: | State Key Laboratory of Chemical Resource Engineering, Beijing University of Chemical Technology, Box 35, Beijing 100029, China |
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Abstract: | FT-IR (Fourier-transform infrared) spectroscopy and density function theory (DFT) methods have been applied to the investigation of the interaction of NO and N2O with Fe3+ species in a beta zeolite (BEA). The geometries for H-BEA and Fe-BEA represented as 10T cluster, and NO and N2O adsorption on them in η1-O and η1-N modes have been completely optimized. The results show that NOx could be adsorbed on Fe3+ species and Brønsted acid sites in two modes, but NOx is mainly bonded by N to H or Fe atom and the iron site is preferred. NOx adsorbed on Fe3+ species is more stable than on Brønsted acid sites. Adsorption energies for N2O and NO follow the order of NO > N2O, predicating that the affinity of NO molecule on BEA zeolite is much stronger than N2O molecule on BEA zeolite. |
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Keywords: | NOx adsorption Fe-BEA Density functional theory (DFT) FT-IR |
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