Journal
CHEMCATCHEM
Volume 10, Issue 6, Pages 1455-1463Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/cctc.201701735
Keywords
copper; environmental chemistry; heterogeneous catalysis; manganese; potassium
Categories
Funding
- National Natural Science Foundation of China [51225202, 51502330]
- Shanghai International Cooperation Project [16520710200]
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An enhanced catalytic activity and improved reusability were achieved by applying facile KNO3 modification during the synthesis of a copper-manganese mixed oxide (CuMnO). Upon KNO3 modification, the characteristic finishing temperature (T-f) of catalytic soot combustion was decreased from 360 degrees C for CuMnO to 338 degrees C for the K-modified product CuMnO(K). Moreover, this T-f value for CuMnO(K) remained remarkably low (346 degrees C) even after five runs of an activity test. The excellent performance of CuMnO(K) is attributed to its well-dispersed nanoparticle morphology, which is totally different from the microspherical features of CuMnO and is beneficial for its sufficient contact with the soot particles. Additionally, an interesting phase evolution of CuMnO(K) was observed for the first time from Cu1.5Mn1.5O4 to the mixed phases of CuO, K2Mn4O8, and MnOx during the consecutive test runs. These mixed phases are believed to be responsible for the enhancement and stabilization of the catalytic activity. Furthermore, the mechanism for the morphology transformation upon KNO3 modification and for the phase evolution during soot combustion was investigated.
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