Enhancing Methane Aromatization Performance by Reducing the Particle Size of Molybdenum Oxide

doi:10.3390/nano10101991

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	Enhancing Methane Aromatization Performance by Reducing the Particle Size of Molybdenum Oxide
	J. Hu,J. H. Liu,J. L. Liu,Y. Y. Li,P. H. Li,Y. Wang,J. Q. Guan and Q. B. Kan
	2020
发表期刊	Nanomaterials
卷号	10 期号:10 页码:16
摘要	Efficient use of natural gas to produce aromatics is an attractive subject; the process requires catalysts that possess high-performance active sites to activate stable C-H bonds. Here, we report a facile synthetic strategy to modify HMCM-49 with small molybdenum oxide nanoparticles. Due to the higher sublimability of nano-MoO3 particles than commercial MoO3, they more easily enter into the channels of HMCM-49 and associate with Bronsted acid sites to form active MoCx-type species under calcination and reaction conditions. Compared with commercial MoO3 modified MCM-49, nano-MoO3 modified MCM-49 exhibits higher methane conversion (13.2%), higher aromatics yield (9.1%), and better stability for the methane aromatization reaction.
DOI	10.3390/nano10101991
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收录类别	SCI
语种	英语
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文献类型	期刊论文
条目标识符	http://ir.ciomp.ac.cn/handle/181722/64494
专题	中国科学院长春光学精密机械与物理研究所
推荐引用方式 GB/T 7714	J. Hu,J. H. Liu,J. L. Liu,Y. Y. Li,P. H. Li,Y. Wang,J. Q. Guan and Q. B. Kan. Enhancing Methane Aromatization Performance by Reducing the Particle Size of Molybdenum Oxide[J]. Nanomaterials,2020,10(10):16.
APA	J. Hu,J. H. Liu,J. L. Liu,Y. Y. Li,P. H. Li,Y. Wang,J. Q. Guan and Q. B. Kan.(2020).Enhancing Methane Aromatization Performance by Reducing the Particle Size of Molybdenum Oxide.Nanomaterials,10(10),16.
MLA	J. Hu,J. H. Liu,J. L. Liu,Y. Y. Li,P. H. Li,Y. Wang,J. Q. Guan and Q. B. Kan."Enhancing Methane Aromatization Performance by Reducing the Particle Size of Molybdenum Oxide".Nanomaterials 10.10(2020):16.

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