Published by admin on 27 Jul 2008
Published by admin on 24 May 2008
Transfer Semihydrogenation of Alkynes…
The palladium(0) carbene complex is an excellent catalyst for the semihydrogenation of alkynes under hydrogen-transfer conditions - HCO2H/Et3N/[Pd]:
Published by admin on 18 May 2008
A Ring Size-Selective Reduction of Lactones Using SmI2 and H2O
The SmI2-H2O reducing system shows complete selectivity for six-membered lactones over other classes of lactone and esters:
Published by admin on 17 May 2008
Efficient Synthesis of Ynamides
Published by admin on 16 May 2008
Direct One-Pot Synthesis of Phenanthrenes via Suzuki-Miyaura Coupling/Aldol Condensation Cascade Reaction
One-pot cascade reaction of Suzuki-Miyaura coupling/aldol condensation can be a mild, simple, and efficient method for the synthesis of highly functionalized phenanthrenes.
Published by admin on 15 May 2008
Scope of a Novel Three-Component Synthesis of Highly Functionalized Pyridines
A mechanistically unique provides a variety of functionalized pyridine derivatives in fair to excellent yields. The scope of this reaction was studied with respect to the alkoxyallene, the nitrile, and the carboxylic acid.
Published by admin on 14 May 2008
A Multicomponent Synthesis of Imidazolones
The palladium-catalyzed four-component cross-coupling of imines, chloroformates, organostannane reagents, and carbon monoxide can be utilized to generate ketocarbamates (1), which are amenable to cyclization to generate imidazolones. Considering the mild conditions (1 atm of carbon monoxide, room temperature) and simple building blocks employed, this provides straightforward access to these heterocycles.
Published by admin on 13 May 2008
Highly Chemoselective Metal-Free Reduction of Tertiary Amides
This communication describes the chemoselective metal-free reduction of tertiary amides to the corresponding amines.
Published by admin on 09 May 2008
Aromatics with a twist
In the 1930s, the physical chemist Erich Huckel predicted that annulenes containing 4n+2 mobile electrons should be stable (aromatic), and that those with 4n electrons should be unstable (antiaromatic) [1]. His prediction spurred a number of synthetic chemists to prepare these molecules. Each successful synthesis confirmed Huckel’s predictions. But in 1964, a spectacular theoretical prediction was made: the Huckel rules are reversed for annulenes with a 180° twist (so-called Mobius annulenes [2]). High-level theoretical calculations confirmed that Mobius rings with 4n electrons are indeed truly aromatic, whereas those with 4n+2 electrons are antiaromatic. Synthetic chemists once again rushed to prove the prediction experimentally, but all early attempts failed. It wasn’t until 2003 that the first synthesis of a Mobius annulene was achieved [3].
Published by admin on 07 May 2008
