Vicente del Amo

Highly enantioselective synthesis of α-azido-β-hydroxy methyl ketones catalyzed by a cooperative proline–guanidinium salt system

The combined activity of (S)-proline and an achiral tetraphenylborate TBD-derived guanidinium salt permits the aldol reaction between azidoacetone and aromatic, or heteroaromatic aldehydes. The α-azido-β-hydroxy methyl ketones obtained as products can be isolated in good yield, with high diastereo- and enantioselectivity.

Recent Synthetic Applications of Manganese in Organic Synthesis

While the organometallic compounds derived from many metals have found a broad application in organic synthesis, the use of organomanganese compounds has only recently been developed due to the passivity exhibited by commercial Mn in the direct metalation of organic compounds. In this Concept article, we highlight the potential of manganese and its organometallic compounds in organic synthesis by illustration of the studies previously reported by others and our laboratory in this field. Based on the transformations reported herein, organomanganese compounds could become important tools in the future of the organic synthesis, due to their high selectivity.

Cooperative Guanidinium/Proline Organocatalytic Systems

Organocatalysis is nowadays recognized as the third pillar of asymmetric synthesis, standing next to metal catalysis and enzymatic transformations. Proline has shown up as an ideal organocatalyst, being inexpensive and readily available. However, this amino acid has also manifested its limitations. Compared to the chemical modification of proline, the approach through adding small hydrogen-bond-donating cocatalysts to interact with proline is particularly attractive. Various additives have been investigated to date. This chapter discloses the use of guanidinium salts as additives for proline, investigated in the course of proline-catalyzed aldol reactions.