The Role of H+- and Cu+-Sites for N2O Formation during NH3-SCR over Cu-CHA
Journal article, 2021
The mechanism for N2O formation over CHA and Cu-CHA zeolite catalysts during NH3-SCR is investigated using density functional theory calculations. Direct NH4NO3 decomposition, which is commonly regarded as the main source of N2O, is found to be associated with high barriers in the absence of Brønsted acid sites. Although Brønsted acid sites promote NH4NO3 decomposition, it is still a highly activated process. Low-temperature N2O formation is instead found to be connected with an NO + NH3 reaction over Cu-sites. In particular, N2O can be formed from H2NNO with a low barrier over Cu-OOH-Cu complexes, which are proposed intermediates in the catalytic cycle for NH3-SCR over Cu-CHA. This finding provides an explanation for the experimentally observed low-temperature N2O formation and the relation between Cu loading and N2O formation. The proposed mechanisms open up strategies to enhance the selectivity to N2 during NH3-SCR.
Cu-CHA
N2O
DFT
NH3-SCR
Author
Yingxin Feng
Chalmers, Physics, Chemical Physics
Ton V. W. Janssens
Umicore
Peter N. R. Vennestrom
Umicore
Jonas Jansson
Volvo Group
Magnus Skoglundh
Chalmers, Chemistry and Chemical Engineering, Applied Chemistry
Henrik Grönbeck
Chalmers, Physics, Chemical Physics
Journal of Physical Chemistry C
1932-7447 (ISSN) 1932-7455 (eISSN)
Vol. 125 8 4595-4601Subject Categories
Inorganic Chemistry
Physical Chemistry
Other Physics Topics
Driving Forces
Sustainable development
Roots
Basic sciences
Infrastructure
C3SE (Chalmers Centre for Computational Science and Engineering)
DOI
10.1021/acs.jpcc.0c11008