4714-15-2

Usage

Uses

Used in Pharmaceutical Industry:
p-(β-Chlorophenethyl)toluene is used as a chemical intermediate for the production of pharmaceuticals, contributing to the synthesis of various medicinal compounds.
Used in Agrochemical Industry:
p-(β-Chlorophenethyl)toluene is used as a chemical intermediate in the agrochemical sector, playing a role in the development of agricultural chemicals.
Used in Fragrance Industry:
p-(β-Chlorophenethyl)toluene is used as a component in the creation of fragrances, adding to the complexity and variety of scents in perfumes and other scented products.
Used in Chemical Research and Development:
p-(β-Chlorophenethyl)toluene is utilized as a research compound in the field of chemical research and development, aiding in the exploration of new organic compounds and their potential applications.
It is crucial to handle p-(β-Chlorophenethyl)toluene with care due to its potential hazards if not properly used and stored.

Upstream product

• 20498-68-4 1-phenyl-2-(4-methylphenyl)ethanol 
• 104-82-5 4-Methylbenzyl chloride 
• 100-42-5 styrene 
• 31614-66-1 tributyl(p-tolyl)stannane 
• 2028-84-4 p-methylbenzenediazonium chloride 
• 106-49-0 p-toluidine 

Downstream Products

• 4714-21-0 E-1-methyl-4-styryl-benzene 

Relevant academic research and scientific papers

Palladium-catalyzed oxidative arylhalogenation of alkenes: Synthetic scope and mechanistic insights

This article describes the development of a Pd-catalyzed reaction for the arylhalogenation (halogen = Cl or Br) of diverse α-olefins by oxidatively intercepting Mizoroki-Heck intermediates. These transformations afford synthetically useful 1,2- and 1,1-arylhalogenated products in good yields with good to excellent selectivities that can be modulated by changing the nature of the halogenating reagent and/or the reaction conditions. The selectivity of these reactions can be rationally tuned by (i) controlling the relative rates of oxidative functionalization versus β-hydride elimination from equilibrating PdII-alkyl species and (ii) stabilization of organometallic PdII intermediates through the formation of π-benzyl adducts. These arylhalogenations exhibit modest to excellent levels of stereoselectivity, and the key carbon-halogen bond-forming step proceeds with predominant retention of stereochemistry at carbon.

Catalytic Effect of Ferrous Chloride in Chloroarylation of Styrene

Styrene reacts with arenediazonium chlorides in the presence of FeCl2 as catalyst to give 1-chloro-1-phenyl-2-arylethanes along with minor amounts of 1,4-diaryl-2,3-diphenylbutanes. Ferrous chloride turned out to be a more active catalyst in the chloroarylation of styrene than copper chlorides.