Papers on catalytic transformations of various cyclic compounds or glycerol over metal catalysts, and the synthesis of metal/metal oxide nanoparticles


(1) Bartók, M., Czombos J., Felföldi, K., Gera, L., Göndös, Gy., Molnár, Á., Notheisz, F., Pálinkó, I., Wittmann, Gy., Zsigmond, Á.G.:

Stereochemistry of Heterogeneous Metal Catalysis, John Wiley and Sons, Chichester, New York, Brisbane, Toronto, Singapore, 1985.


(2) Pálinkó, I., Notheisz, F., Bartók, M.:

The role of carbonaceous overlayer in the competitive hydrogenation of cyclopropanes and olefins,

Catalysis Letters 1, 127 (1988).


(3) Pálinkó, I., Notheisz, F., Bartók, M.:

A competitive reaction which is able to make fine distinctions between reacting surfaces,

Stud. Surf. Sci. Catal. 48, 729 (1989).


(4) Pálinkó, I., Molnár, Á, Kiss, J.T., Bartók, M.:

Activity, selectivity and stereochemical features in the copper-catalyzed hydrogenative ring opening of alkyl-substituted cyclopropanes; Nature of active sites,

J. Catal. 121, 396 (1990).


(5) Pálinkó, I., Notheisz, F., Bartók, M.:

Ni-catalyzed ring-opening reactions of alkyl-substituted cyclopropanes; Role of unreduced Ni species,

J. Mol. Catal. 68, 237 (1991).


(6) Pálinkó, I., Notheisz, F., Kiss, J.T., Bartók, M.:

Hydrogenative ring-opening reactions of alkyl-substituted cyclopropanes over Pt/SiO2 catalyst,

J. Mol. Catal. 77, 313 (1992).


(7) Pálinkó, I., Ocskó, J.:

Hydrogen pressure dependence in the ring opening of methyloxirane over silica-supported Pd and Rh catalysts,

Preprints of the International Conference on Catalysis & Catalytic Processing, p. 463, Cape Town (South Africa), 1993.


(8) Török, B., Pálinkó, I., Molnár, Á., Bartók, M.:

Hydrogen pressure dependence of the ring-opening reactions of propylcyclobutane over Pt/SiO2 catalyst at different temperatures,

J. Catal. 143, 111 (1993).


(9) Török, B., Molnár, Á., Pálinkó, I., Bartók, M.:

Surface carbonaceous deposits as activity and selectivity influencing species in ring-opening reactions of propylcyclobutane catalyzed by Pt/SiO2,

J. Catal. 145, 295 (1994).


(10) Török, B., Pálinkó, I., Molnár, Á., Bartök, M.:

Ring enlargement and aromatization of propylcyclobutane over silica-supported Pt, Pd and Rh in hydrogen atmosphere,

J. Mol. Catal. 91, 61 (1994).


(11) Török, B., Pálinkó, I., Bartók, M.:

Hydrogen pressure dependence in the ring-opening reactions of propylcyclobutane over Pd/SiO2 catalyst,

Catalysis Letters 31, 421 (1995).


(12) Pálinkó, I., Ocskó, J.:

Hydrogen pressure dependence in the ring opening of methyloxirane over silica-supported Pd and Rh catalysts; Effect of high temperature on ring-opening routes,

J. Mol. Catal. 104, 261 (1996).


(13) Pálinkó, I., Török, B.:

Multiple steady state in the hydrogenative ring opening of propylcyclobutane over Rh/SiO2,

Catal. Lett. 45, 193 (1997).


(14) Pálinkó, I.:

Mechanistic implications of ring-opening rate vs hydrogen pressure functions,

J. Catal. 168, 543 (1997).


(15) Pálinkó, I.:

Activity and regioselectivity in the ring-opening reaction of methyloxirane at metal-metal oxide interfaces,

J. Mol. Catal., A 140, 195 (1999).


(16) Fási, A., Pálinkó, I.:

Transformation of cyclohexene oxide over silica-supported Cu, Pd and Rh catalysts in H2/D2 atmosphere,

J. Catal. 181, 28 (1999).


(17) Fási, A., Pálinkó, I.:

Changes in the hydrogenative ring opening mechanism of cyclohexene oxide over Cu/SiO2 resulting from the addition of cyclohexene, a major product,

Catal. Lett. 58, 103 (1999).


(18) Fási, A., Kiss, J.T., Török, B., Pálinkó, I.:

The selectivity and activity determining roles of carbonaceous species and metal–metal oxide interface in metal-catalyzed hydrogenation and isomerization reactions,

Appl. Catal., A 200, 187 (2000).


(19) Fási, A., Pálinkó, I., Hernadi, K., Kiricsi, I.:

Ring-opening reactions of propylene oxide (methyloxirane) over gold catalysts,

Catal. Lett. 81, 237 (2002).


(20) Fási, A., Pálinkó, I., Seo, J.W., Kónya, Z., Hernadi, K., Kiricsi, I.:

Sonication assisted gold deposition on multiwall carbon nanotubes,

Chem. Phys. Lett. 373, 848 (2003).


(21) Fási, A., Hernadi, K., Pálinkó I., Galbács, G., Kiricsi, I.:

The activity of Au supported on various types of carbon in the ring transformation reactions of methyloxirane,

React. Kinet. Catal. Lett. 87, 343 (2006).


(22) Fási, A., Pálinkó I., Hernadi, K., Kiricsi, I.:

Formation of Au nanorods and nanoforks over MgO support,

React. Kinet. Catal. Lett. 87, 263 (2006).


(23) Fási, A., Zsák P., Pálinkó I., Hernadi, K.:

Combinatorial synthesis of carbon nanotubes by the catalytic chemical vapour deposition method,

React. Kinet. Catal. Lett. 87, 349 (2006).


(24) Csankó, K., Sipos, P., Pálinkó, I.:

Monometallic supported gold catalysts in organic transformations: Ring making and ring breaking,

Catalysts 2, 101 (2012).


(25) Mészáros, Sz., Halász, J., Kónya, Z., Sipos, P., Pálinkó, I.:

Search for a Raney-Ni type catalyst efficient in the transformation of excess glycerol into more valuable products,

Catal. Commun. 43, 116 (2014).


(26) Ádám, A.A., Musza, K., Szabados, M., Sipos, P., Pálinkó, I.:

Synthesis and characterization of nickel nanoparticles,

Recent Developments in Coordination, Bioinorganic and Applied Inorganic Chemistry, (Segla, P., Tatarko, M.), ISBN 978-80-89597-65-9, Press of Slovak University of Technology, Bratislava, 2017, pp. 7-13.


(27) Musza, K., Ádám, A.A., Szabados, M., Sipos, P., Pálinkó, I.:

The effect of the experimental parameters on the formation of Cu/Cu2O nanoparticles,

Recent Developments in Coordination, Bioinorganic and Applied Inorganic Chemistry, (Segla, P., Tatarko, M.), ISBN 978-80-89597-65-9, Press of Slovak University of Technology, Bratislava, 2017, pp. 93-97.


(28) Musza, K., Szabados, M., Ádám, A.A., Kónya, Z., Kukovecz, Á., Sipos, P., Pálinkó, I.:

Ball milling of copper powder under dry and surfactant-assisted conditions – on the way towards Cu/Cu2O nanocatalyst,

J. Nanosci. Nanotechn. 19, 389 (2019).


(29) Ádám, A.A., Szabados, M., Polyákovics, Á., Musza, K., Kónya, Z., Kukovecz, Á., Sipos, P., Pálinkó, I.:

The synthesis and use of nano nickel catalysts,

J. Nanosci. Nanotechn. 19, 453 (2019).


(30) Lantos, Sz., Musza, K., Szabados, M., Ádám, A., Pásztor, T., Sipos, P., Pálinkó, I.:

Characterization and catalytic activities of Ni nanoparticles prepared via the reduction of Ni(OH)2 with hydrazine,

Chemistry Lectures, Program and Proceedings, ISBN 978-963-9970-95-3, pp. 87-90 (2018).


(31) Ádám, A.A., Szabados, M., Musza, K., Bélteky, P., Kónya, Z., Kukovecz, Á., Sipos, P., Pálinkó, I.:

Effect of medium and nickel salt source in the synthesis and catalytic performance of nano-sized nickel in the Suzuki-Miyaura cross-coupling reaction,

React. Kinet. Mech. Catal. 126, 841 (2019).


(32) Musza, K., Szabados, M., Ádám, A.A., Kónya, Z., Kukovecz, Á., Sipos, P., Pálinkó, I.:

Mechanochemically modified hydrazine reduction method for the synthesis of nickel nanoparticles and their catalytic activities in the Suzuki–Miyaura cross-coupling reaction,

React. Kinet. Mech. Catal. 126, 857 (2019).


(33) Ádám, A.A., Szabados, M., Varga, G., Papp, Á., Musza, K., Kónya, Z., Kukovecz, Á., Sipos, P., Pálinkó, I.:

Ultrasound-assisted hydrazine reduction method for the preparation of nickel nano-particles, physicochemical characterization and catalytic application in Suzuki-Miyaura cross-coupling reaction,

Nanomaterials 10, 632:1–18 (2020).


(34) Musza, K., Szabados, M., Ádám, A.A., Bélteky, P., Kónya, Z., Kukovecz, Á., Sipos, P., Pálinkó, I.:

Mechanochemical synthesis of the NiSn, CuSn bimetallic and NiCuSn trimetallic nano-powders using various types of additives,

J. Solid State Chem. 293, 121756:1–10 (2021).