67100-45-2

Upstream product

• 27846-25-9 1-phenyl-2-(phenylsulfonyl)ethane 
• 106-95-6 allyl bromide 
• 100-39-0 benzyl bromide 
• 515-42-4 sodium phenylsulfonate 
• 103-63-9 1-phenyl-2-bromoethane 
• 3112-85-4 methylphenylsulfonate 

Downstream Products

• 3909-96-4 (1E,3E)-1-phenyl-1,3-pentadiene 
• 1608-27-1 (Z)-1-phenyl-4-methyl-1,3-butadiene 
• 55666-17-6 (1E)-1,4-pentadienylbenzene 
• 91166-39-1 (E)-penta-2,4-dien-1-ylbenzene 
• 26652-46-0 potassium benzenesulfinate 

Relevant academic research and scientific papers

An efficient, overall [4+1] cycloadditon of 1,3-dienes and nitrene precursors

Intermolecular cycloadditions of conjugated dienes and nitrene precursors usually produce aziridines. A generally useful method was lacking to directly provide the [4+1] cycloadducts, 3-pyrrolines. We have realized this transformation by using an uniquely active catalyst, copper(II) 1,1,1,5,5,5-hexafluoroacetylacetonate ([Cu(hfacac)2]). The method is applicable to a wide array of dienes with good yields. When 1,4-disubsituted dienes are used as substrates, good-to-excellent cis or trans selectivity can be obtained. Interestingly, the cis or trans preference depends on the nature of the substituents, rather than diene geometry. Mechanistic studies reveal that the [4+1] cycloaddition proceeds through diene aziridination and subsequent ring expansion. Among common copper catalysts, only [Cu(hfacac)2] can efficiently catalyze both steps, which explains the unique efficiency of the catalyst.

Alkene synthesis: Elimination of arenesulfinic acid from alkyl aryl sulfones using potassium trimethylsilanolate as base

The use of potassium trimethylsilanolate as base to induce elimination of potassium arenesulfinate from alkyl aryl sulfones to produce E-alkenes is described. The reaction was appropriate for substrates containing a benzyl or allyl group α to the sulfone