In Ukrainian

Abstract

Search for the “structure-reactivity” correlations of the thermally stimulated reactions of cinnamic acids on the surface of catalysts is important for the development of pyrolytic conversion methods of lignocellulosic biomass components into products with high added value, in particular, into styrene. Therefore, in this work, the kinetics of pyrolysis of the reaction series of para-substituted derivatives of trans-cinnamic acid (Н, -СН 3 , -С(СН 3 ) 3 , -ОСН 3 , -F) on the surface of nanosized silica by the method of thermoprogrammed desorption mass spectrometry (TPD MS) was investigated. The products of pyrolytic reactions on the surface are identified ‒ the corresponding, para-substituted vinylbenzenes, phenylacetylenes, and phenylketenes. The kinetic parameters of the decarboxylation, ketenization, and decarbonylation reactions were calculated. The correlations "structure-reactivity" between the kinetic parameters (activation energy) and thermodynamic parameters (Hammett substituents constants) have been obtained, which indicate that electron-donor substituents reduce the activation energy of these three reactions while the electron-acceptor substituents increase it. That is, in the transitional state of the rate-limiting step, a decrease in the electron density is observed at the reaction center. The calculated values of the reaction constants ρ show that the studied reactions dependent on the sensitivity to the effect of the substituents are placed in a sequence: decarbonylation> decarboxylation> ketenization. The formation of phenylacetylenes is the most sensitive to structural changes in the molecule and proceeds through the most polar transition state.