Identification of Active Phase for Complete Oxidation of Methane on Palladium Surface

doi:10.1007/s11244-024-01938-4

	Identification of Active Phase for Complete Oxidation of Methane on Palladium Surface
	Shi, Shucheng1 ; Han, Yong1,2 ; Zang, Yijing2 ; Wang, Zhangrui1 ; Li, Yimin2 ; Zhang, Hui 3,4; Liu, Zhi1,2
	2024
发表期刊	TOPICS IN CATALYSIS (IF:2.8[JCR-2023],2.8[5-Year])
ISSN	1022-5528
EISSN	1572-9028
卷号	67 期号:13-14 页码:874-879
发表状态	已发表
DOI	10.1007/s11244-024-01938-4
摘要	Palladium (Pd)-based catalysts have received extensive attention for their outstanding performance in the complete oxidation of methane (CH4). A fundamental understanding of the reaction mechanism, particularly the most active phase, is essential for the development of efficient catalysts and the optimization of reaction conditions. By employing time-resolved ambient pressure X-ray photoelectron spectroscopy (tr-APXPS) and on-line mass spectrometer (MS), we investigated the complete oxidation of CH4 on the Pd(111) surface within a 1 mbar O2 + 0.25 mbar CH4 atmosphere, ranging from 600 to 900 K. Utilizing tr-APXPS enabled us to observe the phase transition of PdO → PdOx → O/Pd on the Pd(111) surface during the linear heating process. On-line MS data revealed that the formation of PdOx correlates with a significant increase in catalytic activity. By integrating the insights from APXPS and on-line MS, we propose that the catalytic activity for methane oxidation follows the order of PdOx > PdO > O/Pd. Furthermore, we suggest that the PdOx formed at the initial decomposition of bulk PdO is most active for dissociating methane. © The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2024.
关键词	Catalyst activity Catalytic oxidation Methane Palladium Palladium compounds Photoelectrons Photons Spectrometers Active phasis Ambient pressure X-ray photoelectron spectroscopy Ambient pressures CH 4 Complete oxidation Complete oxidation of methane Oxidation of methane Palladium based catalysts Temperature programmed reactions Time-resolved
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收录类别	EI ; SCI
语种	英语
资助项目	National Key R&D Program of China["2022YFA1503803","2022YFE0198500","2022YFA1503801"] ; National Natural Science Foundation of China[11227902] ; Shanghai-XFEL Beamline Project[31011505505885920161A2101001]
WOS研究方向	Chemistry
WOS类目	Chemistry, Applied ; Chemistry, Physical
WOS记录号	WOS:001194709800001
出版者	Springer
EI入藏号	20241415834750
EI主题词	X ray photoelectron spectroscopy
EI分类号	451.2 Air Pollution Control ; 547.1 Precious Metals ; 711 Electromagnetic Waves ; 741.3 Optical Devices and Systems ; 803 Chemical Agents and Basic Industrial Chemicals ; 804 Chemical Products Generally ; 804.1 Organic Compounds ; 931.3 Atomic and Molecular Physics
原始文献类型	Article in Press
文献类型	期刊论文
条目标识符	https://kms.shanghaitech.edu.cn/handle/2MSLDSTB/359870
专题	物质科学与技术学院大科学中心_PI研究组_刘志组物质科学与技术学院_特聘教授组_李毅敏组物质科学与技术学院_硕士生物质科学与技术学院_博士生大科学中心_公共科研平台_大科学装置建设部
通讯作者	Han, Yong; Zhang, Hui; Liu, Zhi
作者单位	1.School of Physical Science and Technology, ShanghaiTech University, Shanghai; 201210, China; 2.Center for Transformative Science, ShanghaiTech University, Shanghai; 201210, China; 3.Shanghai Synchrotron Radiation Facility, Shanghai Advanced Research Institute, Chinese Academy of Sciences, Shanghai; 201204, China; 4.National Key Laboratory of Materials for Integrated Circuits, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai; 200050, China
第一作者单位	物质科学与技术学院
通讯作者单位	物质科学与技术学院; 上海科技大学
第一作者的第一单位	物质科学与技术学院
推荐引用方式 GB/T 7714	Shi, Shucheng,Han, Yong,Zang, Yijing,et al. Identification of Active Phase for Complete Oxidation of Methane on Palladium Surface[J]. TOPICS IN CATALYSIS,2024,67(13-14):874-879.
APA	Shi, Shucheng.,Han, Yong.,Zang, Yijing.,Wang, Zhangrui.,Li, Yimin.,...&Liu, Zhi.(2024).Identification of Active Phase for Complete Oxidation of Methane on Palladium Surface.TOPICS IN CATALYSIS,67(13-14),874-879.
MLA	Shi, Shucheng,et al."Identification of Active Phase for Complete Oxidation of Methane on Palladium Surface".TOPICS IN CATALYSIS 67.13-14(2024):874-879.