Journal
CHEMICAL COMMUNICATIONS
Volume 54, Issue 17, Pages 2154-2157Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c8cc00023a
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Funding
- national key research and development program [2016YFC0203900, 2016YFC0203902]
- National Natural Science Foundation of China [21703037, 21773030]
- leading project of Fujian Province [2017H0049]
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We report a new strategy for the design and construction of CoxMnyO beta for C6H6 oxidation, a representative VOC. The nanostructures of CoxMnyO beta can be tuned from nanowires to needles, hollow/hierarchical microspheres and nanocubes. Moreover, different nanostructures of CoxMnyO beta show diverse textural/structural/surface properties, which in turn show strikingly different catalytic performances. Benefitting from its unique structural feature, nanocubic MnO2 exhibits a superior to considerably high activity for C6H6 oxidation at low temperatures.
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