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JOURNAL ARTICLE

Thermally Stable Hierarchical Nanostructures of Ultrathin MoS2 Nanosheet-Coated CeO2 Hollow Spheres as Catalyst for Ammonia Decomposition

Xueyun GongYingqiu GuNa LiHongyang ZhaoChun‐Jiang JiaYaping Du

Year: 2016 Journal:   Inorganic Chemistry Vol: 55 (8)Pages: 3992-3999   Publisher: American Chemical Society
DOI: 10.1021/acs.inorgchem.6b00265
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Abstract

MoS2 ultrathin nanosheet-coated CeO2 hollow sphere (CeO2@MoS2) hybrid nanostructures with a 3D hierarchical configuration were successfully constructed from a facile two-step wet chemistry strategy: first, CeO2 formed on a silica core which served as a template and was subsequently removed by NaOH solution to attain hollow spheres, and then few-layered ultrathin MoS2 nanosheets were deposited on the CeO2 hollow spheres through a hydrothermal process. As a proof of concept application, the as-prepared CeO2@MoS2 hybrid nanostructures were used as catalytic material, which exhibited enhanced catalytic activity in ammonia decomposition for H2 production at high temperature. It was demonstrated that, even with a structural transformation from MoS2 to MoNx under harsh conditions of ammonia decomposition at high temperature (700 °C), the 3D hierarchical nanostructures of the CeO2@MoNx were well kept, indicating the important role of the CeO2 support.

Keywords:
Nanosheet Catalysis Decomposition Nanostructure Ammonia Chemistry Hydrothermal circulation Chemical engineering Nanotechnology Nanorod Thermal decomposition Hydrothermal synthesis SPHERES Materials science Organic chemistry

Metrics

58
Cited By
3.84
FWCI (Field Weighted Citation Impact)
58
Refs
0.94
Citation Normalized Percentile
Is in top 1%
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Citation History

Topics

MXene and MAX Phase Materials
Physical Sciences →  Materials Science →  Materials Chemistry
Advanced Photocatalysis Techniques
Physical Sciences →  Energy →  Renewable Energy, Sustainability and the Environment
Ammonia Synthesis and Nitrogen Reduction
Physical Sciences →  Chemical Engineering →  Catalysis

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