50340-56-2

Upstream product

• 64-17-5 ethanol 
• 2190-48-9 3-chloro-3-methyl-1-butene 
• 2154-65-6 1,3,5-triphenylverdazyl 
• 78-39-7 Triethyl orthoacetate 
• 556-82-1 3-methyl-2-buten-1-ol 

Downstream Products

• 22539-80-6 diethyl (3-methylbut-2-enyl)malonate 
• 57813-20-4 (E)-(methyl-2 butene-2 yl) propane dioate d'ethyle 
• 759-30-8 (dimethyl-1,2 propene-2 yl) propane dioate d'ethyle 
• 758-66-7 diethyl 2-(2-methylbut-3-en-2-yl)malonate 

Relevant academic research and scientific papers

Kinetics and mechanism of monomolecular heterolysis of commercial organohalogen compounds: XLIII. Solvent effect on activation parameters of dehydrochlorination of 3-chloro-3-methylbut-1-ene. Correlation analysis of solvation effects

The influence of temperature on the rate of dehydrochlorination of 3-chloro-3-methylbut-1-ene in 17 aprotic and 13 protic solvents, ν = k[C 5H9Cl], was studied by the verdazyl method. In aprotic solvents, the electrophilicity, ionizing power, and cohesion of solvents decrease ΔG ≠ by increasing ΔS ≠. The nucleophilicity and polarizability increase both ΔH ≠ and ΔS ≠ to equal extent and therefore do not affect ΔG ≠. In protic solvents, the solvent nucleophilicity increases ΔH ≠ to a greater extent than ΔS ≠, and the overall effect of the nucleophilic solvation is small and negative.

Kinetics and mechanism of monomolecular heterolysis of commercial organohalogen compounds: XLI. Solvent effect on the rate of 3-methyl-3-chloro-1- butene solvolysis. Correlation analysis of solvation effects and role of solvent nucleophilicity

The kinetics of 3-methyl-3-chloro-1-butene solvolysis at 25°C in MeOH, EtOH, BuOH, i-BuOH, PentOH, 2-PrOH, 2-BuOH, HexOH, OctOH, t-BuOH, t-PentOH, cyclohexanol, and allyl alcohol was studied by the verdazyl method; v = k[C 5H9Cl], SN1 + E1 mechanism. The reaction rate shows a satisfactory correlation with the parameter of the solvent ionizing power E T and is independent of the solvent nucleophilicity. 2005 Pleiades Publishing, Inc.

Reaction of orthoesters with alcohols in the presence of acidic catalysts: A study

Allylic and benzylic alcohols are converted into corresponding unsymmetrical ethers when reacted with various orthoesters in the presence of montmorillonite KSF at ambient temperature. A detailed study has been undertaken to examine the mechanism and generality of these reactions with regard to various acidic catalysts, which reveal interesting competitive reactions mainly O-acetylation, together with trace amount of dimerized product. The type of the side product and their relative quantity depends upon the nature of the catalyst employed. Furthermore, the low yields of the Claisen rearrangement product obtained from allylic alcohols under heating is rationalized due to the formation of some of these products.