Carbosilane dendrimers and their use in polymerisation
Details
The synthesis and chemistry of several carbosilane dendrimers were investigated. These dendrimers were analysed using a variety of techniques. Both a convergent and a divergent methodology were used to build up the carbosilane dendrimers. The carbosilane dendrimers were derived using mainly hydrosilylation reactions. These reactions appeared to be particularly useful as they appeared to go to completion. It was necessary to use quantitative reactions to prevent unreacted functionalities on the dendrimers. The simple allyl-terminated dendrimers were functionalised with a variety of silanes. These silanes were then used to further functionalise the dendrimers. A number of derivatives of chloromethylsilyl terminated dendrimers were investigated. The generation of lithiated dendrimers, based on the above mentioned dendrimers, was achieved. A number of zirconocene complexes was prepared in order to link these to the dendrimers through a sigma-bond and a number of model compounds was prepared. Reaction of Schwartz s reagent with the zeroth, first and second generation dendrimer was performed. These compounds were used in polymerisation reactions.
Autorentext
Reinout Meijboom was born in the Netherlands. He completed his Ph.D. in 2001 at UCT. After a post-doc period at the Rand Afrikaans University (now University of Johannesburg) he moved to the University of the Free State in 2005. He was appointed senior lecturer there in 2007 and was appointed to lecture at the University of Johannesburg in 2009.
Weitere Informationen
- Allgemeine Informationen
- GTIN 09783639038668
- Sprache Englisch
- Genre Chemie
- Größe H220mm x B150mm x T9mm
- Jahr 2009
- EAN 9783639038668
- Format Kartonierter Einband (Kt)
- ISBN 978-3-639-03866-8
- Titel Carbosilane dendrimers and their use in polymerisation
- Autor Reinout Meijboom
- Untertitel The synthesis and chemistry of new carbosilane dendrimers and their use in polymerisation catalysis
- Gewicht 243g
- Herausgeber VDM Verlag
- Anzahl Seiten 152