Journal article
Multicomponent (Ce, Cu, Ni) oxides with cage and core–shell structures: tunable fabrication and enhanced CO oxidation activity
Nanoscale, Vol.8(18), pp.9521-9526
2016
Abstract
Solvothermal synthesis of Cu2O cubes from Cu(OAc)2 in ethanol provided templates for tunable formation of novel multicomponent composites: hollow CeO2-Cu2O (1), core-shell NiO@Cu2O (2) and hollow CeO2-NiO-Cu2O (3). Composites 1-3 catalyze the oxidation of CO at a lower temperature than the parent Cu2O cubes.
Details
- Title
- Multicomponent (Ce, Cu, Ni) oxides with cage and core–shell structures: tunable fabrication and enhanced CO oxidation activity
- Authors
- Wei Liu (Author) - Shandong University, ChinaKe Tang (Author) - Shandong University, ChinaMing Lin (Author) - Institute of Materials Research and Engineering, Republic of SingaporeLay Ting Ong June (Author) - Institute of Materials Research and Engineering, Republic of SingaporeShi-Qiang Bai (Author) - Institute of Materials Research and Engineering, Republic of SingaporeDavid James Young (Author) - University of the Sunshine Coast - Faculty of Science, Health, Education and EngineeringXu Li (Author) - Institute of Materials Research and Engineering, Republic of SingaporeYan-Zhao Yang (Author) - Shandong University, ChinaT S Andy Hor (Author) - Institute of Materials Research and Engineering, Republic of Singapore
- Publication details
- Nanoscale, Vol.8(18), pp.9521-9526
- Publisher
- Royal Society of Chemistry (R S C) Publications
- Date published
- 2016
- DOI
- 10.1039/C6NR02383E
- ISSN
- 2040-3364
- Organisation Unit
- University of the Sunshine Coast, Queensland
- Language
- English
- Record Identifier
- 99449794002621
- Output Type
- Journal article
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