82830-86-2

Upstream product

• 121-44-8 triethylamine 
• 64920-29-2 2-oxo-4-phenylbutanoic acid ethyl ester 
• 1334313-63-1 (Z)-ethyl 2-(2-mesitylsulfonylhydrazono)-4-phenylbutanoate 

Downstream Products

• 1334313-85-7 ethyl 2-isobutoxy-4-phenylbutanoate 
• 940290-40-4 ethyl 2-((4-methoxyphenyl)amino)-4-phenylbutanoate 
• 177747-75-0 ethyl 4-phenyl-2-(phenylsulfanyl)butanoate 
• 1422530-08-2 2-benzenesulfonyl-4-phenylbutyric acid ethyl ester 
• 54966-42-6 ethyl 3-benzylacrylate 
• 1422529-97-2 ethyl 2-(dimethoxyphosphoryl)-4-phenylbutanoate 
• 1205-84-1 ethyl (E)-4-phenylbut-3-enoate 
• 559062-83-8 ethyl (2Z)-4-phenyl-2-butenoate 

Relevant academic research and scientific papers

Copper-Catalyzed Oxidation of Hydrazones to Diazo Compounds Using Oxygen as the Terminal Oxidant

A mild method for accessing diazo compounds via aerobic oxidation of hydrazones is described. This catalytic transformation employs a Cu(OAc)2/pyridine catalyst and molecular oxygen from ambient air as the terminal oxidant, generating water as the sole byproduct and affording the desired diazo compounds within minutes at room temperature. A broad array of electronically diverse aryldiazo esters, ketones, and amides can be accessed. Pyridine dramatically enhances the rate of the reaction by solubilizing the copper catalyst and serving as the Br?nsted base in the turnover-limiting proton-coupled oxidation of hydrazone by copper(II). Insights gained from mechanistic studies led to expansion of the scope of this method to include diaryl hydrazones, delivering diaryl diazomethane derivatives, which cannot be accessed via established diazo transfer methods. The products of this method may be employed in rhodium carbene catalysis without isolation of the diazo intermediate to afford cyclopropane products in good yield with high enantioselectivity.

Alkyl halide-free heteroatom alkylation and epoxidation facilitated by a recyclable polymer-supported oxidant for the in-flow preparation of diazo compounds

Highly reactive metal carbenes, generated from simple ketones via diazo compounds, including diazoamides and -phosphonates, using a recyclable reagent inflow, are transient but versatile electrophiles for heteroatom alkylation reactions and for epoxide formation. The method produces no organic waste, with the only byproducts being water, KI and nitrogen, without the attendant hazards of isolation of intermediate diazo compounds.

Potassium N-iodo p-toluenesulfonamide (TsNIK, iodamine-T): A new reagent for the oxidation of hydrazones to diazo compounds

A new reagent for the oxidation of hydrazones to diazo compounds is described. N-Iodo p-toluenesulfonamide (TsNIK, iodamine-T) allows the preparation of α-diazoesters, α-diazoamides, α-diazoketones and α-diazophosphonates in good yield and in high purity after a simple extractive work-up. α-Diazoesters were also obtained in high yield from the corresponding ketones through a one-pot process of hydrazone formation/oxidation. Diazo compounds: N-Iodo p-toluenesulfonamide (TsNIK, iodamine-T), readily prepared from p-toluenesulfonamide and iodine in aqueous KOH, is a new reagent for the oxidation of hydrazones to diazo compounds in good yields and high purity (see scheme).

Continuous-flow generation of diazoesters and their direct use in S-H and P-H insertion reactions: Synthesis of α-sulfanyl, α-sulfonyl, and α-phosphono carboxylates

The synthesis of α-sulfanyl, α-sulfonyl, and α-phosphono carboxylates has been achieved using a two-step procedure involving the in-flow generation of diazoesters from sulfonylhydrazones, via Bamford-Stevens elimination, and then subsequent S-H, sulfinate

Rapid access to α-alkoxy and α-amino acid derivatives through safe continuous-flow generation of diazoesters

Microreactors: A highly efficient continuous-flow process has been developed for the synthesis of diazoesters from arylsulfonylhydrazones by means of in-flow Bamford-Stevens reactions. Furthermore, a range of α-alkoxy and α-amino acid derivatives have bee