Ye. Yu. Kalishyn scite author profile

It was established that increase in the size of the iron nanoparticles in Fe/CNT nanocomposites from 4 to 8 nm leads to increase of their activity and selectivity with respect to methane in the hydrogenolysis of ethylene. The activity and selectivity of the nanocomposites are significantly higher than those of macrocrystalline iron, and this may be due to differences in the thermal conductivity of the bulk iron and the carbon nanotubes.Hydrogenolysis reactions, which take place with cleavage of a C-C bond, lead to decrease in the chain length of aliphatic hydrocarbons and also to ring cleavage in cyclic hydrocarbons [1]. Such reactions are side processes and are undesirable in the reforming and isomerization of hydrocarbons [2,3]. Reactions that take place with cleavage of a C-C bond are structure-sensitive [3]. By studying the hydrogenolysis processes it is possible to discover new reasons for the effects of nanoparticle size, impurities, support, and the composition of bimetallic nanoparticles on their activity and also special features of the mechanisms of such processes [4]. As a rule, the effect of particle size on their activity in hydrogenolysis has been studied for the model hydrogenolysis of ethylene [3]. The hydrogenolysis of ethylene is of interest on account of the possibility of determining the effect of the size of the nanoparticles both on the activity of materials that contain such nanoparticles and on their selectivity in the process.Carbon nanotubes (CNTs) have relatively high chemical, thermal, and electrochemical stability, and this helps to extend the working life of catalysts that contain them. The accessibility of the surface and the possibility of controlling the porosity and the nature of the surface functional groups make carbon nanotubes more promising than activated carbon as catalyst material. Despite the lower specific surface area of carbon nanotubes compared with activated carbon, nanocomposites with deposited metal nanoparticles, including iron nanoparticles, on CNTs usually exhibit high activity in heterogeneous catalytic processes and particularly in hydrogenation and hydrogenolysis [5].Iron-containing catalysts are widely used in industry and particularly in the Fischer-Tropsch synthesis and in the synthesis of ammonia. At the present time catalysts with deposited nanoparticles of iron are being actively investigated in hydrogenation processes [6]. Study of the dependence of the effect of the size of the iron nanoparticles on the catalytic activity and selectivity of nanocomposites containing such nanoparticles are of both theoretical and practical interest in view of the fact that the establishment of such relationships may lead to the creation of novel catalytic systems with controllable activity and selectivity [7,8]. The literature does not contain any systematic investigations of hydrogenolysis reactions at iron-containing catalysts; this has led to interest in study of such systems and may lead to the discovery of new effects characteristic of iron but not of noble metals...

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Effect of the Carbon Support on the Catalytic Activity of Platinum Nanoparticles in the Water Gas Shift Reaction

Kaidanovych

Kalishyn

Grytsenko

et al. 2015

Theor Exp Chem

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Size-controlled synthesis of platinum nanoparticles supported on γ-Al2O3 and their thermal stability

2013

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Ye. Yu. Kalishyn

Size effect of Fe nanoparticles supported on carbon nanotubes on their activity and selectivity in the hydrogenation of crotonaldehyde

Effect of the Size of Iron Nanoparticles on the Catalytic Activity and Selectivity of Fe/Cnt Nanocomposites in Hydrogenolysis of Ethylene

Effect of the Carbon Support on the Catalytic Activity of Platinum Nanoparticles in the Water Gas Shift Reaction

Size-controlled synthesis of platinum nanoparticles supported on γ-Al2O3 and their thermal stability

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