196080-79-2

Upstream product

• 75-77-4 chloro-trimethyl-silane 
• 149021-01-2 (difluoro(trimethylsilyl)methyl)benzene 
• 98-08-8 α,α,α-trifluorotoluene 
• 98-15-7 3-chlorotrifluoromethylbenzene 
• 98-56-6 4-chlorobenzotrifluoride 

Downstream Products

• 14595-76-7 α,α.α-tris(trimethylsilyl)toluene 

Relevant academic research and scientific papers

Mg-Cu bimetal system for selective C-F bond activation

Bimetal system of Mg-CuCl in DMI for selective C-F and C-Cl bonds activation has been examined. This article involves (1) a short overview of bimetal system of Mg-metals for selective C-F bond activation, (2) C-F bond activation of alkyl trifluoroacetates

Cu-deposits on Mg metal surfaces promote electron transfer reactions

The enhancement of the electron transfer processes in the Grignard reagent formation-type ring silylation and the defluorination-silylation of perfluoroalkyl benzenes by Cu(0)-deposited Mg metal were confirmed. Microscopic analysis and substituent effects implied a different reduction process in the presence of Cu-deposited Mg metal than in the presence of bare Mg metal.

Selective electrochemical synthesis and reactivity of functional benzylic fluorosilylsynthons

Electrochemical reductive silylation of meta-(trifluoromethyl)arenes by the sacrificial anode technique selectively led to meta-trimethylsilyldifluoromethylarenes (ArCF2TMS), in the presence of an excess of TMSCl and in a THF/cosolvent mixture

Selective electrosynthesis of (trimethylsilyldifluoro)methylbenzene, a PhCF2-precursor; conditions for a molar scale preparation without HMPA

Electrochemical reductive silylation of trifluoromethylbenzene by the sacrificial anode technique selectively led, in a THF/DMPU mixture instead of THF/HMPA and according to the charge passed, to the corresponding mono-, bis- or tris-trimethylsilyl derivatives, respectively PhCF2TMS, PhCF(TMS)2 and PhC(TMS)3. This reaction, without any chemical equivalent, was extended to a molar scale synthesis, using a tubular flow cell.