What do quantum cellular automata (QCA), "on water" reactions, and SN1-type organocatalytic transformations have in common? The link between these distant arguments is the practical access to useful intermediates and key products through the use of stabilized carbenium ions. Over 10 years, starting with a carbenium ion bearing a ferrocenyl group, to the 1,3-benzodithiolylium carbenium ion, our group has exploited the use of these intermediates in useful and practical synthetic transformations. In particular, we have applied the use of carbenium ions to stereoselective organocatalytic alkylation reactions, showing a possible solution for the "holy grail of organocatalysis". Examples of the use of these quite stabilized intermediates are now also considered in organometallic chemistry. On the other hand, the stable carbenium ions are also applied to tailored molecules adapted to quantum cellular automata, a new possible paradigm for computation. Carbenium ions are not a problem, they can be a/the solution!
Gualandi, A., Mengozzi, L., Manoni, E., Cozzi, P.G. (2016). From QCA (Quantum Cellular Automata) to Organocatalytic Reactions with Stabilized Carbenium Ions. THE CHEMICAL RECORD, 16(3), 1228-1243 [10.1002/tcr.201500299].
From QCA (Quantum Cellular Automata) to Organocatalytic Reactions with Stabilized Carbenium Ions
GUALANDI, ANDREA;MENGOZZI, LUCA;MANONI, ELISABETTA;COZZI, PIER GIORGIO
2016
Abstract
What do quantum cellular automata (QCA), "on water" reactions, and SN1-type organocatalytic transformations have in common? The link between these distant arguments is the practical access to useful intermediates and key products through the use of stabilized carbenium ions. Over 10 years, starting with a carbenium ion bearing a ferrocenyl group, to the 1,3-benzodithiolylium carbenium ion, our group has exploited the use of these intermediates in useful and practical synthetic transformations. In particular, we have applied the use of carbenium ions to stereoselective organocatalytic alkylation reactions, showing a possible solution for the "holy grail of organocatalysis". Examples of the use of these quite stabilized intermediates are now also considered in organometallic chemistry. On the other hand, the stable carbenium ions are also applied to tailored molecules adapted to quantum cellular automata, a new possible paradigm for computation. Carbenium ions are not a problem, they can be a/the solution!I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.