18403-68-4

Upstream product

• 5706-12-7 (E)-2-benzylidene-2,3-dihydro-1H-inden-1-one 
• 5706-12-7 2-benzylidine-1-indanone 
• 618-68-8 2-benzyl-3-phenylpropanoic acid 
• 49802-75-7 2-benzyl-3-phenyl-propionyl chloride 
• 16307-30-5 2-benzyl-1-indanone 
• 16274-87-6 2-benzyl-2,3-dihydro-1H-inden-1-ol 

Downstream Products

• 16274-87-6 2-benzyl-2,3-dihydro-1H-inden-1-ol 
• 433262-74-9 (R)-(-)-2-benzylindan-1-one 
• 16307-30-5 (S)-(+)-2-benzylindan-1-one 
• 1246356-97-7 (1S,2R)-2-benzylindan-1-ol 
• 1350912-92-3 anti-2-benzyl-3-hydroxyindan-1-one 
• 1246356-95-5 syn-2-benzyl-2,3-dihydroxyindan-1-one 
• 1246356-96-6 (R)-2-(p-hydroxybenzyl)-7-hydroxyindan-1-one 
• 209864-22-2 (1R,2S)-(+)-2-benzylindan-1-ol 
• 78140-91-7 anti-(+/-)-2-benzylindan-1-yl acetate 
• 1246356-94-4 2-benzylindan-1-yl acetate 

Relevant academic research and scientific papers

Undirectional Triple and Double Hydrogen Rearrangement Reactions in the Radical Cations of γ-Arylalkanols

A novel fragmentation reaction accompanied by the unidirectional migration of three hydrogen atom has been found in the radical cations of γ-arylpropanols with electron-donating substituents in the para position.This triple hydrogen (3H) rearrangement rea

Asymmetric microbial conversion of (E)-2-benzylideneindan-1-one by the filamentous fungi Botrytis cinerea, Trichoderma viride, and Eutypa lata

The transformation of (E)-2-benzylideneindan-1-one 1 by the filamentous fungi Botrytis cinerea, Trichoderma viride, and Eutypa lata as biocatalysts was studied. The results showed the catalytic potential of these fungi in affording several hydroxylation a

Biocatalytic preparation and absolute configuration of enantiomerically pure fungistatic anti-2-benzylindane derivatives. Study of the detoxification mechanism by Botrytis cinerea

Enantiomerically pure 2-benzylindane derivatives were prepared using biocatalytic methods and their absolute configuration determined. (1R,2S)-2-Benzylindan-1-ol ((1R,2S)-2) and (S)-2-benzylindan-1-one ((S)-3) were produced by fermenting baker's yeast. Li

On the baker's yeast mediated transformation of α-bromoenones. Synthesis of (1S,2R)-2-bromoindan-1-ol and (2s,3s)-3-bromo-4-phenylbutan-2- ol

Fermenting baker's yeast converts α-bromo substituted enones 7 and 10 into enantiomerically pure (1S,2R)2-bromoindan-1-ol 3 and (2S,3S)-3-bromo-4- phenylbutan-2-ol 11, respectively, through the intermediacy of the corresponding saturated ketones. Structurally related 16 provides the (2R)- allylic alcohol 17 prevalently.

Hydroxy-Directed Hydroaluminations: A Stereoselective Approach to Cycloalkanols From β-Aryl Enones.

Various aryl substituted enones are reduced using lithium aluminum hydride to afford sterioselectively trans substituted alkanols.Mechanistic studies demonstrate 1,2-addition followed by hydroxy-directed hydroalumination of the conjugated styryl unit.

Stereospecificity of Introduction of Hydride Ion during Double Bond Reduction of 2-Benzylidene-1-tetralone and Other Related Compounds

Lithium aluminium hydride reduction of the benzylidene derivatives (1a-c) and (5) in refluxing THF is shown to be stereospecific, the saturated alcohol isolated in each case having the trans-stereochemistry.The benzyl ketones (30a, b, d) and (7) on sodium