| 三维有序大孔SnO2基固溶体用于有效燃烧碳烟颗粒 |
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| 引用本文: | 饶成,刘瑞,冯小辉,沈家庭,彭洪根,徐香兰,方修忠,刘建军,王翔.三维有序大孔SnO2基固溶体用于有效燃烧碳烟颗粒[J].催化学报,2018,39(10):1683-1694. |
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| 作者姓名: | 饶成 刘瑞 冯小辉 沈家庭 彭洪根 徐香兰 方修忠 刘建军 王翔 |
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| 作者单位: | a南昌大学化学学院,江西南昌,330031
b江西宝安新材料科技有限公司,江西萍乡,337000 |
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| 基金项目: | 国家自然科学基金(21567016;25103106),江西省自然科学基金(20171BAB213013),江西省教育厅基金(KJLD14005),国家重点研发项目(2016YFC0209302),江西省研究生创新创业训练基金(YC2015B017),中国大学生创新创业训练基金(201701035) |
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| 摘 要: | 柴油车尾气排放的碳烟颗粒对人类的生存环境和身体健康带来了严重危害.催化燃烧是消除碳烟颗粒污染的有效途径.碳烟颗粒催化燃烧是固-固-气相反应,因此催化剂本身具有活泼的氧中心且其能与碳烟颗粒有效接触是提高反应效率的关键因素.为改善碳烟颗粒与催化剂的接触,设计制备三维有序大孔(3DOM)催化剂,使碳烟颗粒可以进入催化剂孔道内部,增加其与催化剂的有效接触,是提高反应活性的有效途径.此外,在催化剂晶格中掺杂其它金属离子形成固溶体结构,可提高其氧化还原性能,也可有效提高其碳烟燃烧活性.SnO2富含活泼的表面缺位氧和可还原的晶格氧,且其熔点高达1630 oC,具有良好的热稳定性,被广泛用于制备气体传感、电化学和催化等材料.在过去的6年中,本课题组在SnO2催化化学领域做了大量系统的工作,将SnO2基催化材料用于多种环保和能源反应.发现通过其它阳离子Fe3+,Cr3+,Ta5+,Ce4+和Nb5+等的掺杂,替换晶格中部分Sn4+形成金红石型SnO2固溶体结构,可显著提高催化剂氧物种的流动性、活性和本身的热稳定性.本文采用胶体晶体模板法制备出了Ce4+,Mn3+和Cu2+离子掺杂的SnO2三维有序大孔固溶体催化剂用于松散接触条件下的碳烟催化燃烧.采用SEM,TEM,XRD,STEM-mapping,O2-TPD和XPS等手段对催化剂进行表征,研究其碳烟催化燃烧性能.SEM和TEM结果表明已成功合成三维有序大孔结构样品.XRD,Raman和STEM-mapping结果表明,Ce4+,Mn3+和Cu2+离子均进入四方金红石型SnO2晶格形成固溶体结构.另外,Raman,H2-TPR,XPS和O2-TPD等结果发现上述离子掺杂三维大孔SnO2后,催化剂表面形成了更活泼、丰富的氧物种,有利于碳烟颗粒燃烧.其中3DOM-Cu1Sn9催化剂具有最丰富的活泼氧中心,因此表现出最高的活性.
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| 关 键 词: | 三维有序大孔催化剂 碳烟燃烧 SnO2基固溶体 晶格掺杂 氧空位 |
| 收稿时间: | 28 April 2018 |
Three-dimensionally ordered macroporous SnO2-based solid solution catalysts for effective soot oxidation |
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| Cheng Rao,Rui Liu,Xiaohui Feng,Jiating Shen,Honggen Peng,Xianglan Xu,Xiuzhong Fang,Jianjun Liu,Xiang Wang.Three-dimensionally ordered macroporous SnO2-based solid solution catalysts for effective soot oxidation[J].Chinese Journal of Catalysis,2018,39(10):1683-1694. |
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| Authors: | Cheng Rao Rui Liu Xiaohui Feng Jiating Shen Honggen Peng Xianglan Xu Xiuzhong Fang Jianjun Liu Xiang Wang |
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| Institution: | 1. Institute of Applied Chemistry, College of Chemistry, Nanchang University, Nanchang 330031, Jiangxi, China;2. Jiangxi Baoan New Material Technology Corporation, Ltd, Pingxiang 337000, Jiangxi, China |
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| Abstract: | A series of three-dimensionally ordered macroporous (3DOM) SnO2-based catalysts modified by the cations Ce4+, Mn3+, and Cu2+ have been prepared by using a colloidal crystal templating method and tested for soot combustion under loose contact condition. XRD and STEM mapping results confirm that all the secondary metal cations have entered the lattice matrix of tetragonal rutile SnO2 to form non-continuous solid solutions, thus impeding crystallization and improving the surface areas and pore volumes of the modified catalysts. In comparison with regular SnO2 nanoparticles, the 3DOM SnO2 displays evidently improved activity, testifying that the formation of the 3DOM structure can anchor the soot particulates in the macro-pores, which ensures that the contact of the soot particles with the active sites on the 3DOM skeleton is more easily formed, thus benefiting the target reaction. With the incorporation of the secondary metal cations, the activity of the catalyst can be further improved due to the formation of more abundant mobile oxygen species. In summary, these effects are believed to be the major factors responsible for the activity of the catalyst. |
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| Keywords: | Three-dimensionally ordered macroporous catalyst Soot combustion Lattice doping Oxygen vacancies |
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