Interaction of chromocene with the silica surface, and structure of the active species for ethene polymerization

Faraday Discussions of The Chemical Society Pub Date : 1989-01-01 DOI:10.1039/DC9898700149
A. Zecchina, G. Spoto, S. Bordiga
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引用次数: 21

Abstract

The anchoring process of Cr(Cp)2 on silica hydroxyl groups occurs by elimination of C5H6 and formation of Si—O—CrCp mononuclear species. These anchored species are then able to adsorb incoming Cr(Cp)2 to give catalytically inactive dimeric species. These reactions are heavily diffusion-controlled. Interaction of CO and NO with mononuclear anchored species gives well defined dicarbonylic and dinitrosylic compounds, while the reaction of CO with dinuclear (catalytically inactive) species gives much more complex polycarbonylic compounds. The Si—O—CrCp mononuclear surface species are the active sites for ethene polymerization. The chain-initiation mechanism probably consists of the formation of a metallocyclic structure.
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色二烯与二氧化硅表面的相互作用,以及乙烯聚合活性物质的结构
Cr(Cp)2在二氧化硅羟基上的锚定过程是通过消除C5H6和形成Si-O-CrCp单核物质来实现的。然后,这些固定的物质能够吸附进入的Cr(Cp)2,生成催化活性不高的二聚体。这些反应是由扩散控制的。CO和NO与单核锚定物质的相互作用得到明确的二羰基和二硝基化合物,而CO与双核(催化无活性)物质的反应得到更复杂的聚羰基化合物。Si-O-CrCp单核表面是乙烯聚合的活性位点。链起爆机制可能包括金属环结构的形成。
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Faraday Discussions of The Chemical Society
Faraday Discussions of The Chemical Society
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