催化剂中金属与载体相互作用的表征研究进展OACSTPCD
Research progress in characterization of metal-support interactions in catalysts
负载型催化剂是低碳催化转化领域重要的一类催化剂,金属-载体相互作用广泛存在于负载型催化剂中.这种相互作用会显著影响催化剂的物理结构和电子结构,进而既可调控活性金属的催化活性和稳定性,又可达到金属-载体协同催化的效果,促进低碳烃类、醇类等的选择性催化转化.因此,研究金属-载体相互作用对催化剂优化和催化机理的深入探究都有十分重要的意义.基于非原位和原位表征技术,从静态性质和动态性质两个方面,综述了金属-载体相互作用的表征研究进展.通过非原位表征技术,如高分辨电镜、振动光谱、X射线谱学和电子顺磁共振谱等,可以表征金属与载体之间的物质输运、电荷偏移等情况;通过原位表征技术,如原位红外、原位X射线谱学和原位电子顺磁共振等,可以表征金属-载体相互作用的强弱变化、反应过程中催化剂的界面结构和组分变化以及动态电荷转移的过程等.
Supported catalysts are crucial in low-carbon catalytic conversion,and metal-support interactions is widely present in supported catalysts.These interactions play a vital role in determining the physical and electronic structure of these catalysts,and not only regulate the catalytic activity and stability of active metals but also enable the synergistic catalysis effect between metals and supports,thus promoting the selective catalytic conversion of low-carbon hydrocarbons,alcohols and other compounds.Hence,understanding the metal-support interactions is essential for the optimization of catalysts and exploring catalytic mechanisms deeply.The research progress in characterization of metal-support interactions using ex situ and in situ techniques were discussed.Ex situ characterization techniques,such as high-resolution electron microscopy,vibrational spectroscopy,X-ray spectroscopy and electron paramagnetic resonance spectroscopy can investigate mass transport and charge transfer between metals and supports.In situ characterization techniques,such as in situ infrared spectroscopy,in situ X-ray spectroscopy and in situ electron paramagnetic resonance can characterize the strength changes of metal-support interactions,changes of interface structures and compositions of catalysts during reactions,as well as the dynamic charge transfer processes.
彭洁;李曜;储政;于杨
中石化南京化工研究院有限公司,江苏 南京 210048
化学工程
金属-载体相互作用表征技术静态性质动态性质
metal-support interactionscharacterization techniquesstatic propertiesdynamic properties
《低碳化学与化工》 2024 (002)
1-9 / 9
江苏省"卓越博士后计划".
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