Carbonyl catalytic reductive coupling

Catalytic Reductive Coupling of Carbonyl Compounds -The Pinacol Coupling Reaction and Beyond... 

Catalytic Reductive Coupling of Alkenes and Alkynes to Carbonyl Compounds and Imines Mediated by Hydrogen... 

Hirao T (2007) Catalytic Reductive Coupling of Carbonyl Compounds - The Pinacol Coupling Reaction and Beyond. 279 53-75 Hirayama N, see Sakai K (2007) 269 233-271 Hirst AR, Smith DK (2005) Dendritic Gelators. 256 237-273 Holzwarth AR, see Balaban TS (2005) 258 1-38... 

Ihmels H, Otto D (2005) Intercalation of Organic Dye Molecules into Double-Stranded DNA - General Principles and Recent Developments. 258 161-204 Iida H, Krische MJ (2007) Catalytic Reductive Coupling of Alkenes and Alkynes to Carbonyl Compounds and Imines Mediated by Hydrogen. 279 77-104 Imai H (2007) Self-Organized Formation of Hierarchical Structures. 270 43-72 Indelli MT, see Chiorboli C (2005) 257 63-102 Inoue Y, see Borovkov VV (2006) 265 89-146 Ishii A, Nakayama J (2005) Carbodithioic Acid Esters. 251 181-225 Ishii A, Nakayama J (2005) Carboselenothioic and Carbodiselenoic Acid Derivatives and Related Compounds. 251 227-246... 

In the presence of a catalytic amount of SbClj-AgSbFg or PhsC+SbFg, the ringopening rearrangement of epoxides proceeds to generate carbonyl compounds, which subsequently undergo catalytic reductive coupling wifh alkoxysilanes-EtaSiH to yield unsymmetrical ethers (Scheme 14.29) [69]. 

The Barhier-type reaction of aldehydes and ketones with allyl halides (485) in the presence of Sml2, leading to homoallyl alcohols (486), has received recent interest as a one-step alternative to the Grignard reaction. However, the reactions require the use of stoichiometric amounts of the reducing Sm(III) species. Recently, the electroreductive Barhier-type allylation of carbonyl compounds in an SmH-mediated reaction has been developed [569]. The electrolysis of (485) is carried out in a DMF-SmCl3-(Mg/Ni) system in an undivided cell to give the adduct (486) in 50 85% yields (Scheme 168) [569]. Electrosynthesis of y-butyrolactones has been achieved by the reductive coupling of ethyl 3-chloropropionate with carbonyl compounds in the presence of a catalytic amount of SmCfi [570]. 

Since, for secrecy reasons, information on new processes and the state of their development is not always published, or only after long delays, the classification applied or recent developments may be misleading. For example, the potential of phase-transfer catalyzed processes may already be more important than the present literature indicates. The same statement could apply for areas such as amidocarbonylation, the synthesis of fine chemicals by means of metallocenes, the reductive/oxidative carbonylation of aromatic amines or nitro derivatives, Heck coupling using palladacycles and heterocyclic carbene complexes, catalytic McMurry coupling, or other proposed methods. Recent developments must therefore leave open the stage of development reached, perhaps signaling that at the time of publication no commercialized, licensable process is yet known to the scientific community. 

When an enyne is reductively coupled in an intramolecular fashion with Zr or Ti, the metallacyclopentene that is obtained initially may be carbonylated to the corresponding bicyclic cyclopentenone with CO. The reaction proceeds by insertion of CO and reductive elimination. In Ti-promoted cyclization, in fact, under certain conditions the Ti(II) fragment produced by reductive elimination can promote reductive coupling of another enyne, providing a basis for a variant of this reaction that is catalytic in Ti. 

Aroyl cyanides undergo reductive coupling to furnish a-diketones in moderate yields. Allylation of carbonyl compounds. The chemoselectivity of allylindium reagents toward aldehydes enables elaboration of the steroid side chain without affecting the enone system in ring A. Allylation is also viable using a catalytic amount of indium and Mn-MejSiClinTHF. o... 

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