Transition metal catalysis in confined spaces
Institute for Molecular Science · University of Amsterdam
Abstract
Transition metal catalysis plays an important role in both industry and in academia where selectivity, activity and stability are crucial parameters to control. Next to changing the structure of the ligand, introducing a confined space as a second coordination sphere around a metal catalyst has recently been shown to be a viable method to induce new selectivity and activity in transition metal catalysis. In this review we focus on supramolecular strategies to encapsulate transition metal complexes with the aim of controlling the selectivity via the second coordination sphere. As we will discuss, catalyst confinement can result in selective processes that are impossible or difficult to achieve by traditional…
Citation impact
- FWCI
- 28.95
- Percentile
- 100%
- References
- 113
Authors
4- SHStefan H. A. M. Leenders
Institute for Molecular Science, University of Amsterdam
- RGRafael Gramage‐Doria
Institute for Molecular Science, University of Amsterdam
- BDBas de Bruin
Institute for Molecular Science, University of Amsterdam
- JNJoost N. H. ReekCorresponding
Institute for Molecular Science, University of Amsterdam
Topics & keywords
- Transition metal
- Catalysis
- Chemical physics
- Chemistry
- Nanotechnology
- Materials science
- Chemical engineering
- Organic chemistry