C-H Activation represents a powerful methodology for the creation of known & new molecular entities with promising biological activity. The palladium nanocatalysts used to carry out these transformations can be prepared with known shape. In this project various palladium nanoparticle shapes were prepared & tested in a key C-H activation/direct arylation reaction. The research showed that the react (Q233324): Difference between revisions
Jump to navigation
Jump to search
(Changed an Item) |
(Changed an Item) |
||
Property / beneficiary | |||
Property / beneficiary: University College Cork / rank | |||
Normal rank |
Revision as of 20:43, 10 June 2020
Project in Ireland financed by DG Regio
Language | Label | Description | Also known as |
---|---|---|---|
English | C-H Activation represents a powerful methodology for the creation of known & new molecular entities with promising biological activity. The palladium nanocatalysts used to carry out these transformations can be prepared with known shape. In this project various palladium nanoparticle shapes were prepared & tested in a key C-H activation/direct arylation reaction. The research showed that the react |
Project in Ireland financed by DG Regio |
Statements
57,860.89 Euro
0 references
115,721.78 Euro
0 references
50.0 percent
0 references
1 November 2014
0 references
31 August 2016
0 references
University College Cork
0 references
C-H Activation represents a powerful methodology for the creation of known & new molecular entities with promising biological activity. The palladium nanocatalysts used to carry out these transformations can be prepared with known shape. In this project various palladium nanoparticle shapes were prepared & tested in a key C-H activation/direct arylation reaction. The research showed that the reactivity is greatly influenced by nanoparticle shape. (English)
0 references
Identifiers
254
0 references