1) Pacześniak, T. Bloniarz, P. Rydel, K. Sobkowiak, A., ‘Electrochemical Catalytic Processes with Hydrogen Peroxide Showing Oxidative and Reductive Properties (Acting as Oxidant or Reductant)’, Electroanalysis - Weinheim-2007, VOL 19; NUMBER 9, pages 945-951
2) Pacześniak T., Rydel K., Błoniarz P., Sobkowiak A., ‘Electrochemical Sensors For Hydroperoxides In Water And Acetonitrile’, Chem. Listy 103, 271 (2009)
3) Rydel K., Pacześniak T., Błoniarz P., Sobkowiak A., ‘Electrochemical Catalytic Currents Formed In The Presence Of Dioxygen And Transition Metal Complexes Of Salen’, Chem. Listy 103, 274 (2009)
4) Pacześniak T., Błoniarz P., Szczepanik A., Rydel K., Sobkowiak A., ‘Electrochemical characterization of redox state of homogeneous catalysts’, Chem.Listy 103, 247 (2009)
5) Pokutsa A., Zaborovskiy A., Maksym D., Muzart J, Makitra R., Pal’chykova O., Kopylets V., Prystanskiy R., Pacześniak T., Kinetic and UV/Vis spectroscopic studies of the solvent influence on the cobalt(II)- acetylacetonate catalyzed cleavage of hydrogen peroxide, Reaction Kinetics, Mechanisms and Catalysis, Volume 100, Number 2, 309-323 (2010)
6) Pokutsa A., Fliunt O., Kubaj Y., Pacześniak T., Błonarz P., Prystanskiy R., Muzart J., Makitra R., Zaborovskyi A., Sobkowiak A., ‘Relationships between the efficiency of cyclohexane oxidation and the electrochemical parameters of the reaction solution‘, J. Mol. Cat. A: Chemical, Volume 347, Issues 1-2, 15-21 (2011)
7) Zarzyka I., Paczesniak T., Polyurethane foams modified with bisoxamidoester groups, Polym. Bull. (2015) 72:1321–1338
8) Zarzyka I., Łukasiewicz-Czul B., Paczesniak T., Stagraczynski R., Majda D., Effect of the Additive Fire Retardants on the Properties of Rigid Polyurethane Foams, Obtained Using Hydroxyethyl Derivatives of Oxamide and Polymeric 4,4′-Diphenylmethane Diisocyanate, Polymer-Plastics Technology and Engineering,54 (2015) 1280-1288
9) Pokutsa A., Kubaj Y., Zaborovskyi A., Maksym D., Paczesniak T., Mysliwiec B, Bidzinska E., Muzart J., Sobkowiak A., V(IV)-catalyzed cyclohexane oxygenation promoted by oxalic acid: Mechanistic study, Molecular Catalysis, 434 (2017) 194-205
10) Rydel-Ciszek K., Charczuk M., Pacześniak T, Chmielarz P.: „Manganese(II) complexes with Bn-tpen as powerful catalysts of cyclohexene oxidation”, Chemical Papers, 71 (2017) 2085-2093
11) Chmielarz P., Pacześniak T., Rydel-Ciszek K., Zaborniak I., Biedka P., Sobkowiak A.: Synthesis of naturally-derived macromolecules through simplified electrochemically mediated ATRP”, Beilstein Journal of Organic Chemistry, 13 (2017) 2466-2472
12) Zarzyka I., Białkowska A., Pacześniak T., Fracz W., Majda D., New, thermally stable, rigid polyurethane foams based on polyols obtained using morpholine-2,3-dione derivatives, Journal of Cellular Plastics, 54 (2018) 719-741
13) Pacześniak T., Rydel-Ciszek K., Chmielarz P., Charczuk M., Sobkowiak A., 'Electrochemical Reaction Gibbs Energy:Spontaneity in Electrochemical Cells', Journal of Chemical Education, 2018 95 (10), 1794-1800
14) Pokutsa A., Tkach S., Zaborovsky A., Bloniarz P., Pacześniak T., Muzart J., Sustainable oxidation of cyclohexane catalyzed by a VO(acac)₂-oxalic acid tandem: the electrochemical motive of the process efficiency, RSC advances 2020 v.10 no.18 pp. 10959-10971
15) Pokutsa A., Tkach S., Zaborovsky A., Bloniarz P., Pacześniak T., Muzart J., Sustainable Oxidation of Cyclohexane and Toluene in the Presence of Affordable Catalysts: Impact of the Tandem of Promoter/Oxidant on Process Efficiency, ACS Omega 2020, 5, 13, 7613–7626
16) Zarzyka I., Pacześniak T., Frącz W., Rigid polyurethane foams modified with borate and oxamide groups–Preparation and properties, https://doi.org/10.1177/0021955X20943093
17) Rydel-Ciszek K., Pacześniak T., Zaborniak I., Błoniarz P., Surmacz K., Sobkowiak A. and Chmielarz P., Iron-Based Catalytically Active Complexes in Preparation of Functional Materials, Processes 2020, 8, 1683; doi:10.3390/pr8121683
18) Pokutsa A., Zaborovsky A., Bloniarz P., Pacześniak T., Maksym D., Muzart J. ‘Cyclohexane oxidation: relationships of the process efficiency with electrical conductance, electronic and cyclic voltammetry spectra of the reaction mixture’, Reaction Kinetics, Mechanisms and Catalysis, https://doi.org/10.1007/s11144-020-01913-6 (published online 01/21/2021)