Ag/Mg-Al-O Composite for Low Temperature NOx Storage

高等学校化学研究 ›› 2011, Vol. 27 ›› Issue (5): 734-738.

Ag/Mg-Al-O Composite for Low Temperature NO_xStorage

WANG Tian-you*, LU Zhen, YANG Sheng-hua and SUN Kai

State Key Laboratory of Engines, School of Mechanical Engeering, Tianjin University, Tianjin 300072, P. R. China

收稿日期:2010-10-08 修回日期:2011-06-04 出版日期:2011-09-25 发布日期:2011-09-06
通讯作者: WANG Tian-you E-mail:tianyou_wang@yahoo.cn
基金资助:
Supported by the National Natural Science Foundation of China(No.50876074).

Ag/Mg-Al-O Composite for Low Temperature NO_xStorage

WANG Tian-you*, LU Zhen, YANG Sheng-hua and SUN Kai

State Key Laboratory of Engines, School of Mechanical Engeering, Tianjin University, Tianjin 300072, P. R. China

Received:2010-10-08 Revised:2011-06-04 Online:2011-09-25 Published:2011-09-06
Contact: WANG Tian-you E-mail:tianyou_wang@yahoo.cn
Supported by:
Supported by the National Natural Science Foundation of China(No.50876074).

摘要/Abstract

摘要： Ag/Mg-Al-O composite was prepared by the calcination of Ag-containing Mg-Al hydrotalcite-like compound and metallic Ag supported on periclase phase Mg-Al-O was obtained. The as-prepared Ag/Mg-Al-O composite exhibits good NOx storage capability in a relatively low temperature range of 150―300 °C. The highest NOx storage capability of 7.3 mg/g was achieved at 150 °C, while a lower NOx storage capability of 5.1 mg/g was achieved at 300 °C. Meanwhile, ca. 25% of NOx was observed to decompose to N2 at 300 °C. In situ FTIR results suggest that NOx mainly stored in Ag/Mg-Al-O catalyst in the form of bridging nitrites located on periclase phase Mg-Al-O.

关键词: Ag/Mg-Al-O, NOx storage, Decomposition, Bridging nitrite

Abstract: Ag/Mg-Al-O composite was prepared by the calcination of Ag-containing Mg-Al hydrotalcite-like compound and metallic Ag supported on periclase phase Mg-Al-O was obtained. The as-prepared Ag/Mg-Al-O composite exhibits good NOx storage capability in a relatively low temperature range of 150―300 °C. The highest NOx storage capability of 7.3 mg/g was achieved at 150 °C, while a lower NOx storage capability of 5.1 mg/g was achieved at 300 °C. Meanwhile, ca. 25% of NOx was observed to decompose to N2 at 300 °C. In situ FTIR results suggest that NOx mainly stored in Ag/Mg-Al-O catalyst in the form of bridging nitrites located on periclase phase Mg-Al-O.

Key words: Ag/Mg-Al-O, NOx storage, Decomposition, Bridging nitrite

WANG Tian-you*, LU Zhen, YANG Sheng-hua and SUN Kai. Ag/Mg-Al-O Composite for Low Temperature NO_xStorage[J]. 高等学校化学研究, 2011, 27(5): 734-738.

WANG Tian-you*, LU Zhen, YANG Sheng-hua and SUN Kai. Ag/Mg-Al-O Composite for Low Temperature NO_xStorage[J]. Chemical Research in Chinese Universities, 2011, 27(5): 734-738.

[1]	LIU Fengyi, LIU Minjuan. An Intuitive Electric-field Contribution Decomposition Model for Chemical Processes and Its Applications on Diels-Alder Reactions[J]. 高等学校化学研究, 2020, 36(6): 1241-1248.
[2]	ZHAO Shengxiang, ZHAO Ying, XING Xiaoling, JU Xuehai. Decomposition Mechanism of 5,5'-Bis(tetrazole)-1,1'-diolate(TKX-50) Anion Initiated by Intramolecular Oxygen Transfer[J]. 高等学校化学研究, 2019, 35(3): 485-489.
[3]	GUO Peiwen, QIN Feng, SUN Chao, HUANG Zhen, SHEN Wei, XU Hualong. Effect of Cesium Modification on CuO/CeO₂ Catalysts for the Catalytic Decomposition of N₂O[J]. 高等学校化学研究, 2019, 35(1): 47-52.
[4]	LÜ Cunqin, LIU Jianhong, JIN Chun, GUO Yong, WANG Guichang. A DFT+U Investigation on Methylamine Decomposition Catalyzed by Pt₄ Cluster Supported on Oxygen Defective Rutile (110) TiO₂[J]. 高等学校化学研究, 2017, 33(3): 406-414.
[5]	ZHANG Jihua, LI Jie, LIU Mingjie, ZHAO Yunfeng, WANG Shutao. Thermal Decomposition Kinetics and Mechanism of Low-temperature Hydrogenated Acrylonitrile Butadiene Rubber Composites with Sodium Methacrylate[J]. 高等学校化学研究, 2016, 32(6): 1045-1051.
[6]	LIU Jun, LAN Lixin, WU Chao, LI Rong, LIU Xuanyan. Agglomerated Pd Catalysts and Their Applications in Hydrogen Production from Formic Acid Decomposition at Room Temperature[J]. 高等学校化学研究, 2016, 32(2): 272-277.
[7]	LIU Jianhong, LÜ Cunqin, JIN Chun, GUO Yong, WANG Guichang. Density Functional Theoretical Studies on the Methanol Adsorption and Decomposition on Ru(0001) Surfaces[J]. 高等学校化学研究, 2016, 32(2): 234-241.
[8]	QI Xiaoxia, REN Ning, ZHANG Dahai, ZHANG Jianjun. Synthesis, Spectroscopic, Thermochemical Properties of Lanthanide Complexes with 3,4-Diethoxybenzoic Acid and 1,10-Phenanthroline[J]. 高等学校化学研究, 2015, 31(6): 1039-1045.
[9]	LI Yu, XUE Zehui, ZHANG Qi, SUN Cuitao, LI Junping, LIU Laishuan. Preparation of Magnetic TS-1 and Its Catalytic Activity[J]. 高等学校化学研究, 2015, 31(3): 430-433.
[10]	ZHANG Yu, DONG Kaiyue, QIU Qianqian, XU Kangzhen, HE Fei, SONG Jirong, ZHAO Fengqi. Non-isothermal Decomposition Kinetics of [Cu(en)₂H₂O](FOX-7)₂·H₂O[J]. 高等学校化学研究, 2014, 30(4): 672-675.
[11]	ZHU Yanli, XIAO Zhixia, JIAO Qingjie, REN Hui, HUANG Hao. Effects of Aluminum on Thermal Decomposition of Hexogen/Ammonium Perchlorate[J]. 高等学校化学研究, 2014, 30(4): 666-671.
[12]	DU Xujie, LI Xiaodong, YANG Rongjie, LI Yuchuan, PANG Siping. Thermal Kinetics and Decomposition Mechanism of 1-Amino-1, 2, 3-triazolium Nitrate[J]. 高等学校化学研究, 2014, 30(1): 130-136.
[13]	L?Lei, XU Kang-zhen, QIU Qian-qian, WANG Gang, SONG Ji-rong, ZHAO Feng-qi. Non-isothermal Decomposition Kinetics of K(AHDNE)[J]. 高等学校化学研究, 2012, 28(5): 878-881 .
[14]	WANG Shi-wei, WU Bi-dong, YANG Li, ZHANG Tong-lai, ZHOU Zun-ning, ZHANG Jian-guo . Synthesis, Crystal Structure, Thermal Decomposition and Sensitive Properties of a New Complex [Cu(IMI)₄](PA)₂[J]. 高等学校化学研究, 2012, 28(4): 585-589.
[15]	XU Si-yu, ZHAO Feng-qi, YI Jian-hua, GAO Hong-xu, SHAO Zi-qiang, HAO Hai-xia, HU Rong-zu, PEI Qing. Thermal Behavior and Thermal Safety of Nitrate Glycerol Ether Cellulose[J]. 高等学校化学研究, 2012, 28(3): 516-519.

Ag/Mg-Al-O Composite for Low Temperature NO_xStorage

Ag/Mg-Al-O Composite for Low Temperature NO_xStorage

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

编辑推荐

Metrics

本文评价