Friedel-Crafts alkylation metal catalysis

Jorgensen and co-workers employed chiral bis-sulfonamide catalyst 27, a proven ligand for metal-based asymmetric catalysis, for the Friedel-Crafts alkylations of N-methylindoles (24) using -substituted nitroolefins [52]. Using optimized conditions, 2 mol% 27 gave the desired indole alkylation products of substituted aryl and heteroaryl nitroolefins in moderate to high yields (20-91%) and moderate enantiopurities (13-63% ee Scheme 6.3). Aliphatic -substitution... 

Friedel-Crafts alkylations and acylations, and Heck reactions. The ability of ionic Uquids to dissolve organo-metallic compounds also makes them potential solvents for homogeneous catalysis. 

Mesoporous Metal Oxide Solid Acids Three-dimensional porous metal oxides have been recently synthesized and applied to acid-catalyzed reactions. The use of mesoporous metal oxides is an interesting approach to develop a solid acid catalyst with enhanced activity. The mesopores in the oxide allow the reactants to access additional active acid sites in the pores, resulting in improved rates of acid catalysis. Mesoporous niobium oxides and tantalum oxides treated with phosphoric acid or sulfuric acid have been examined as solid acid catalysts [57-59]. These mesoporous oxides exhibited remarkable activity in Friedel-Crafts alkylation and 1-hexene isomerization in the liquid phase. For sulfated mesoporous tantalum oxides /m-TsL O ), the effect of pore size has been investigated using... 

Dysprosium(III) catalysis in organic synthesis (Friedel—Crafts alkylation, Mannich-type, Diels—Alder, and Povarov reactions) 12T2015. Enamides and related functional groups as nucleophihc components in ring-forming processes catalyzed by electrophihc metal salts 12SL814. 

From a mechanistic viewpoint, asymmetric Friedel-Crafts alkylation (AFCA) reactions are similar to the historical version, with the chiral additives responsible for triggering and controUing the overall aromatic C—H replacement. Interestingly, covalent (organocatalysis) or noncovalent (metal catalysis) interactions can take place between catalysts and electrophiles during the enantiodis-criminating step of the reaction course (Fig. 5.1). 

Section 5.2 aromatic Friedel-Crafts-type alkylations C. Perego and P. Ingallina, Catal. Today 2002, 73, 3 A. Corma, Chem. Rev. 1995, 95, 559 alkane cracking and isomerization Y. Ono, Catal. Today 2003,81, 3 A. Feller and J. A. Lercher, Adv. Catal. 2004, 48, 229 isoparaffin-olefin alkylation A. Corma and A. Martinez, Catal. Rev. Sci. Eng. 1993, 35, 483 acid-base catalysis with metal oxides K. Tanabe and W. F. Floelderich, Appl. Catal. A Gen. 1999, 181, 399. 

---