84658-08-2

Upstream product

• 89-95-2 2-methyl-benzyl alcohol 
• 407-25-0 trifluoroacetic anhydride 
• 76-05-1 trifluoroacetic acid 

Downstream Products

• 1388792-48-0 (S)-2-(o-methylbenzyl)-2,5-dihydrofuran. 
• 1388792-82-2 C₁₂H₁₄O 
• 1388792-75-3 (S)-3-(o-methoxybenzyl)-1-cyclopentene 

Relevant academic research and scientific papers

Palladium-catalyzed, asymmetric Mizoroki-Heck reaction of benzylic electrophiles using phosphoramidites as chiral ligands

We report herein the first examples of asymmetric Mizoroki-Heck reactions using benzyl electrophiles. A new phosphoramidite was identified to be an effective chiral ligand in the palladium-catalyzed reaction. The reaction is compatible with polar functional groups and can be readily scaled up. Several cyclic olefins worked well as olefin components. Thirty-one examples are included.

Approaches to antibody-catalyzed cationic cyclizations: Chemical studies of leaving groups and cyclization modes

The solvolysis of a range of esters of 2-methylbenzyl alcohol 10 has been studied. It was found that sulphonate esters are solvolyzed very rapidly in aqueous solution (t1/2 ≈ 35 s), whereas sulphinates react slowly (t1/2 ≈ 35 h) and a phosphonate diester is stable. The fluorescent 5-dimethylaminonaphthalene-1-sulphinate (dansinate) esters (e.g. 22) held the most promise as substrates for antibody-catalyzed cationic cyclizations. It was shown by 18O-labeling studies that ester 13 is hydrolyzed predominantly (but not exclusively) by SNI reaction at the benzylic position. A number of conditions were tried to effect cationic cyclizations of an unsaturated benzylic alcohol 26, whose ester is intended as the substrate for the antibody-catalyzed reaction. The products obtained were the result of attack of the non-benzylic alcohol on either the benzylic cation, to give 31 and 32, or on the protonated alkene, to give 29. No cyclization of the alkene onto the benzylic cation, to give 4, was observed, suggesting that this is a disfavored reaction in solution.