Our research offer includes a wide range of well-tried and useful heterogeneous nanocatalysts in the form of powders or granules. Nanometal carriers are based on sol-gel silicas (SiO2) (synthesized by the Stӧber method) or amorphous ones, or titanium dioxide (TiO2) in the crystallographic form of anatase active in the processes of photocatalytic reactions support. Other carriers on which deposition of nanoparticles is possible are metals such as Ni, Mo, Ti, Fe, and Cu. We specialize, in particular, in the synthesis and deposition of noble metal nanostructures (Ru, Rh, Re, Pd, Au, Ir) on the surface of the abovementioned carriers. Metal nanoparticles produced by our team are in the range of 2-50 nm, approx. 10 nm on average. Depending on the individual preferences and requirements of the clients, we also offer the possibility of doping the manufactured nanomaterials with metal promoters, e.g. V, W, Mo, Co or another selected metal. The offered catalysts are widely used mainly in: Sonogashira coupling reactions1, polyol oxidation2,3, glycerol dehydration and hydrogenation4, polyol acetalization5,6, CO/CO2 methanation7,8,9,10, deNOx catalysts11 and cracking NH312.

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1. M. Korzec, P. Bartczak, A. Niemczyk, J. Szade, M. Kapkowski, P. Zenderowska, K. Balin, J. Lelątko, J. Polanski, Bimetallic nano Pd/PdO/Cu system as a highly effective Catalyst for the Sonogashira reactionJ. Catal. 313 (2014) 1-8. (MNiSW = 140; IF = 7.920) DOI.
2. M. Kapkowski, P. Bartczak, M. Korzec, R. Sitko, J. Szade, K. Balin, J. Lelątko , J. Polanski, SiO2-, Cu-, and Ni supported Au nanoparticles for selective glicerol oxidation in the liquid phaseJ. Catal. 319 (2014) 110-118. (MNiSW = 140; IF = 7.920).  DOI.
3. M. Kapkowski, A. Niemczyk-Wojdyla, P. Bartczak, M. Pyrkosz Bulska, K. Gajcy, R. Sitko, M. Zubko, J. Szade, J. Klimontko, K. Balin, J. Polanski, A Study of Catalytic Oxidation of a Library of C2 to C4 Alcohols in the Presence of Nanogold Nanomaterials, 442 (2019) 1-17 (MNiSW = 70; IF = 5.076). DOI.
4. M. Kapkowski, T. Siudyga, R. Sitko, J. Lelątko, J. Szade, K. Balin, J. Klimontko, P. Bartczak, J. Polanski, Catalytic gas-phase glicerol processing over SiO2-, Cu-, Ni- and Fe- supported Au nanoparticlesPLoS One 10(11) (2015) 1-15. (MNiSW = 100; IF = 3.057) DOI.
5. M. Kapkowski, W. Ambrożkiewicz, T. Siudyga, R. Sitko, J. Szade, J. Klimontko, K. Balin, J. Lelątko, J. Polanski, „Nano silica and molybdenum supported Re, Rh, Ru or Ir nanoparticles for selective solvent-free glycerol conversion to cyclic acetals with propanone and butanone under mild conditions”, Appl. Catal., B 202 (2017) 335-345. (MNiSW = 200; IF = 19.503) DOI.
6. M. Kapkowski, J. Popiel, T. Siudyga, M. Dzida, E. Zorębski, M. Musiał, R. Sitko, J. Szade, K. Balin, J. Klimontko, M. Zubko, J. Polanski, Mono- and bimetallic nano-Re systems doped Os, Mo, Ru, Ir as nanocatalytic platform for the acetalization of polyalcohols to cyclic acetals and their applications as fuel additivesAppl. Catal., B 239 (2018) 154-167 (MNiSW = 200; IF = 19.503) DOI.
7. T. Siudyga, M. Kapkowski, P. Bartczak, M. Zubko, J. Szade, K. Balin, S. Antoniotti, J. Polanski, Ultra-low temperature carbon (di)oxide hydrogenation catalyzed by hybrid ruthenium-nickel nanocatalysts: towards sustainable methane productionGreen Chem., 22 (2020) 5143-5150. (MNiSW = 200; IF = 10.182). DOI.
8. T. Siudyga, M. Kapkowski, D. Janas, T. Wasiak, R. Sitko, M. Zubko, J. Szade, K. Balin, J. Klimontko, D. Lach, J. Popiel, A. Smoliński, J. Polanski, Nano-Ru Supported on Ni Nanowires for Low-Temperature Carbon Dioxide MethanationCatalysts, 513 (2020) 1-14. (MNiSW = 100; IF = 4.146). DOI.
9. J. Polanski, T. Siudyga, P. Bartczak, M. Kapkowski, W. Ambrozkiewicz, A. Nobis, R. Sitko, J. Klimontko, J. Szade, J. Lelątko, Oxide passivated Ni-supported Ru nanoparticles in silica: a new catalyst for low-temperature carbon dioxide methanation, Appl. Catal., B 206 (2017) 16-23 (MNiSW = 200; IF = 19.503) DOI.
10. D. Lach, J. Polański, M. Kapkowski, CO2 A Crisis or Novel Functionalization Opportunity?, Energies 2022, 15(5), 1617 (MNiSW = 140; IF = 3.252). DOI.
11.  M. Kapkowski, T. Siudyga, P. Bartczak, M. Zubko, R. Sitko, J. Szade, K. Balin, B. S. Witkowski, M. Ożga, R. Pietruszka, M. Godlewski, J. Polański, Catalytic Removal of NOx on Ceramic Foam-supported ZnO and TiO2 Nanorods Ornamented with W and V OxidesEnergies 2022, 15(5), 1798 (MNiSW = 140; IF = 3.252). DOI.
12. J. Polański, P. Bartczak, W. Ambrożkiewicz, R. Sitko, T. Siudyga, A. Mianowski, J. Szade, K. Balin, J. Lelątko, Ni-Supported Pd Nanoparticles with Ca Promoter: A New Catalyst for Low- Temperature Ammonia CrackingPLoS One 10(8) (2015) 1-14. (MNiSW = 100; IF = 3.057). DOI.