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Improved catalytic combustion of methane using CuO nanobelts with predominantly (001) surfaces.


ABSTRACT: Through computational calculations, CuO(001) has been identified as an active surface for methane oxidation. Experimental validation with CuO nanobelts comprised of predominantly (001) surfaces has been performed and it is confirmed that the performance of such nanobelts is much higher than normal nanoparticles and nanowires. First principle calculations further clarified that two-coordinated oxygen plays a key role for methane adsorption and oxidation.

SUBMITTER: Kong Q 

PROVIDER: S-EPMC6176823 | biostudies-literature | 2018

REPOSITORIES: biostudies-literature

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Improved catalytic combustion of methane using CuO nanobelts with predominantly (001) surfaces.

Kong Qingquan Q   Yin Yichun Y   Xue Bing B   Jin Yonggang Y   Feng Wei W   Chen Zhi-Gang ZG   Su Shi S   Sun Chenghua C  

Beilstein journal of nanotechnology 20180924


Through computational calculations, CuO(001) has been identified as an active surface for methane oxidation. Experimental validation with CuO nanobelts comprised of predominantly (001) surfaces has been performed and it is confirmed that the performance of such nanobelts is much higher than normal nanoparticles and nanowires. First principle calculations further clarified that two-coordinated oxygen plays a key role for methane adsorption and oxidation. ...[more]

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