Cationic Polymerization within Clusters Composed of Unsaturated Molecules
Abstract
Electron impact ionization of large neutral clusters composed of simple olefinic molecules (ethene, 1,1-difluoroethene and propene) display highly anomalous ion intensity distributions. These cluster ion distributions typically exhibit a magic number at n=4, for cluster ions of the type (M) sub n +, where M is an olefinic molecule. The explanation which best explains this observation is that these small 'cluster' ions are in actuality covalently bound molecular ions formed by sequential ion-molecule association (polymerization) reactions which have occurred within the cluster ion. This size dependent cluster chemistry is accounted for by kinetic bottle-necks which occur in the ionic chain growth reactions and which terminate with the formation of cyclic molecular ions (i.e. cyclopentanes and cyclohexanes ions). The condensed phase counterparts of these intra-cluster reactions are the free cationic polymerization reactions initiated by radiolysis of bulk samples of the olefins. In addition to reviewing our own efforts in this field, we will discuss previous work on cationic polymerization which is relevant to the new chemistry we have observed within clusters of olefinic molecules. We also will present work concerning acetylene and methylacetylene cluster ions where we also observe similar intra-cluster....
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 1993
- Accession Number
- ADA262819
Entities
People
- Gopalarkishnan Vaidyanathan
- James F. Garvey
- M. Todd Coolbaugh
Organizations
- University at Buffalo