| 24. | “Selective glucose oxidation to glucaric acid using bimetallic catalysts: Lattice expansion or electronic structure effect?”, Z. Lavric; J. Terzan; A. Kroflic; J. Zavasnik; J.E. Olszówka; S. Vajda; M. Hus; M. Grilc; B. Likozar, Appl. Catal. B (2024) 343, 123455, DOI: 10.1016/j.apcatb.2023.123455, Open access, link |
| 23. | “Fe-MOR and Fe-FER as catalysts for abatement of N2O with CH4: in situ UV-vis DRS and operando FTIR study”, M.C. Campa; D. Pietrogiacomi; C. Catracchia; S. Morpurgo; J. Olszowka; K. Mlekodaj; M. Lemishka; J. Dedecek; A. Kornas; E. Tabor, Appl. Catal. B (2024) 342, 123360, DOI: 10.1016/j.apcatb.2023.123360, link |
| 22. | "Cyclohexane Oxidative Dehydrogenation on Graphene-Oxide-Supported Cobalt Ferrite Nanohybrids: Effect of Dynamic Nature of Active Sites on Reaction Selectivity", S. A. Kadam, S. Sandoval, Z. Bastl, K. Simkovičová, L. Kvítek, J. Jašík, J.E. Olszówka, S. Valtera, M. Vaidulych, J. Morávková, P. Sazama, D. Kubička, A. Travert, J. A. van Bokhoven, A. Fortunelli, A. Kleibert, M. Kalbáč, and Š. Vajda, ACS Catal 13, 13484–13505 (2023), DOI: 10.1021/acscatal.3c02592, Open access, link, |
| 21. | “Activation of molecular oxygen over binuclear iron centers in Al-rich *BEA zeolite”, A. Kornas; E. Tabor; D.K. Wierzbicki; J.E. Olszówka; R. Pilar; J. Dedecek; M. Sliwa; H. Jirglova; S. Sklenak; D. Rutkowska-Zbik; K. Mlekodaj, Appl. Catal. B (2023) 336, 122915, DOI: 10.1016/j.apcatb.2023.122915, link |
| 20. | “Organization of cooperating aluminum pairs in ferrierite evidenced by luminescence quenching”, J.E. Olszówka; P. Kubat; J. Dedecek; E. Tabor, J. Phys. Chem. C (2023) 127 (15), 7344-7351, DOI: 10.1021/acs.jpcc.3c00585, Open access, link |
| 19. | “Evolution of Active Oxygen Species Originating from O2 cleavage over Fe-FER for application in methane oxidation”, K. Mlekodaj; M. Lemishka; A. Kornas; D.K. Wierzbicki; J.E. Olszówka; H. Jirglová; J. Dedecek; E. Tabor, ACS Catal. (2023) 13 (5), 3345-3355, DOI: 10.1021/acscatal.2c06099, Open access, link |
| 18. | “Hydrogenation of CO2 on nanostructured Cu/FeOx catalysts: the effect of morphology and Cu load on selectivity”, K. Simkovicová; M.I. Qadir; N. Zilková; J.E. Olszówka; P. Sialini; L. Kvítek; S. Vajda, Catalysts (2022) 12 (5), 516, DOI: 10.3390/catal12050516, Open access, link |
| 17. | “Atom by atom built subnanometer copper cluster catalyst for the highly selective oxidative dehydrogenation of cyclohexene”, S. Valtera; J. Jasík; M. Vaidulych; J.E. Olszówka; M. Zlámalová; H. Tarábková; L. Kavan; S. Vajda, J. Chem. Phys. (2022) 156 (11), 114302, DOI: 10.1063/5.0065350, Open access, link |
| 16. | “Reducing indium dependence by heterostructure design in SnO2 In2S3 nanocomposites”, S.R.I. Sloman; S. Sain; J.E. Olszówka; S.K. Pradhan; A.E.H. Wheatley; A. Kar, Mater. Chem. Phys. (2022) 277, 125463, DOI: 10.1016/j.matchemphys.2021.125463, link |
| 15. | “Influence of the ultrasonic-assisted synthesis on Al distribution in a MOR zeolite: from gel to resulting material”, J.E. Olszówka; V. Pashkova; A. Kornas; J. Dedecek; J. Brus; M. Urbanova; E. Tabor; P. Klein; L. Brabec; K. Mlekodaj, New J. Chem. (2021) 45 (41), 19294-19303, DOI: 10.1039/d1nj00685a, link |
| 14. | “Determination of Zn speciation, siting, and distribution in ferrierite using luminescence and FTIR Spectroscopy”, J.E. Olszówka; M. Lemishka; K. Mlekodaj; P. Kubat; D. Rutkowska-Zbik; J. Dedecek; E. Tabor, J. Phys. Chem. C (2021) 125 (17), 9060-9073, DOI: 10.1021/acs.jpcc.1c00543, link |
| 13. | “Synthesis of the zeolites from SBU: an SSZ-13 study”, K. Mlekodaj; M. Bernauer; J.E. Olszowka; P. Klein; V. Pashkova; J. Dedecek, Chem. Mater. (2021) 33 (5), 1781-1788, DOI: 10.1021/acs.chemmater.0c04710, link |
| 12. | “Splitting dioxygen over distant binuclear Fe sites in zeolites. Effect of the local arrangement and framework topology”, E. Tabor; M. Lemishka; J.E. Olszowka; K. Mlekodaj; J. Dedecek; Andrikopoulos, PC; Sklenak, S., ACS Catal. (2021) 11 (4), 2340-2355, DOI: 10.1021/acscatal.0c04459, link |
| 11. | “Milling activation for the solvent-free synthesis of zeolites. A practical guide”, A. Kornas; J.E. Olszówka; P. Klein; V. Pashkova, Catalysts (2021) 11 (2), 246, DOI: 10.3390/catal11020246, review, link |
| 10. | “Ultrasonic pretreatment as a tool for the preparation of low-defect zeolite mordenite”, A. Kornas; J.E. Olszówka; M. Urbanova; L. Brabec; J. Rathousky; J. Dedecek; V. Pashkova, ACS Omega (2021) 6 (3), 2340-2345, DOI: 10.1021/acsomega.0c05655, Open access, link |
| 9. | “Effect of alkali-free synthesis and post-synthetic treatment on acid sites in Beta zeolites”, K. Mlekodaj; J.E. Olszówka; V. Tokarova; E. Tabor; A. Kasparek; J. Novakova; G. Stavova; O. Gonsiorova; L. Peliskova; J. Brus; R. Pilar; P. Klein; J. Dedecek, Molecules (2020) 25 (15), 3434, DOI: 10.3390/molecules25153434, link |
| 8. | “Milling Activation for the solvent-free synthesis of the zeolite mordenite”, A. Kornas; J.E. Olszówka; M. Urbanova; K. Mlekodaj; L. Brabec; J. Rathousky; J. Dedecek; V. Pashkova, Eur. J. Inorg. Chem. (2020) 2020 (29), 2791-2797, DOI: 10.1002/ejic.202000320, Open access, link, Front Cover |
| 7. | “Combined H2O2 nitrile/bicarbonate system for catalytic Baeyer-Villiger oxidation of cyclohexanone to γ-caprolactone over Mg-Al hydrotalcite catalysts”, R. Karcz; J.E. Olszówka; B.D. Napruszewska.; J. Krysciak-Czerwenka; E.M. Serwicka; A. Klimek; K. Bahranowski, Catal. Commun. (2019) 132, 105821, DOI: 10.1016/j.catcom.2019.105821, link |
| 6. | “Morphological effects on the photocatalytic properties of SnO2 nanostructures”, A. Kar; J. Olszówka; S. Sain; SRI Sloman; O. Montes; A. Fernández; SK Pradhan; AEH Wheatley, J. Alloys Compd. (2019) 810, 151718, DOI: 10.1016/j.jallcom.2019.151718, link |
| 5. | “Effect of grinding on the physico-chemical properties of Mg-Al hydrotalcite and its performance as a catalyst for Baeyer-Villiger oxidation of cyclohexanone”, J.E. Olszówka; R. Karcz; A. Michalik-Zym; B.D. Napruszewska; E. Bielanska; J. Krysciak-Czerwenka; R.P. Socha; M. Nattich-Rak; Krzan, M; A. Klimek; K. Bahranowski; E.M. Serwicka, Cat. Today (2019) 333, 147-153, DOI: 10.1016/j.cattod.2018.05.035, link |
| 4. | “New insight into the preferred valency of interlayer anions in hydrotalcite-like compounds: The effect of Mg/Al ratio”, J.E. Olszówka; R. Karcz; E. Bielanska; J. Krysciak-Czerwenka; B.D. Napruszewska; B. Sulikowski; R.P. Socha; A. Gawel; K. Bahranowski; Z. Olejniczak; E.M. Serwicka, Appl. Clay Sci. (2018) 155, 84-94, DOI: 10.1016/j.clay.2018.01.013, link |
| 3. | “Effect of Mg-Al hydrotalcite crystallinity on catalytic Baeyer-Villiger oxidation of cyclohexanone with H2O2/acetonitrile”, J.E. Olszówka; R. Karcz; B.D. Napruszewska; A. Michalik-Zym; D. Duraczynska; J. Krysciak-Czerwenka; A. Niecikowska; K. Bahranowski; E.M. Serwicka, Catal. Commun. (2018) 107, 48-52, DOI: 10.1016/j.catcom.2018.01.014, link |
| 2. | “Baeyer-Villiger oxidation of cyclohexanone with H2O2/acetonitrile over hydrotalcite-like catalysts: Effect of Mg/Al ratio on the γ-caprolactone yield”, J. Olszówka; R. Karcz; B.D. Napruszewska; D. Duraczynska; A. Gawel; K. Bahranowski; E.M. Serwicka, Catal. Commun. (2017) 100, 196-201, DOI: 10.1016/j.catcom.2017.07.006, link |
| 1. | “Magnesium and/or calcium-containing natural minerals as ecologically friendly catalysts for the Baeyer-Villiger oxidation of cyclohexanone with hydrogen peroxide”, J. Olszówka; R. Karcz; B. Napruszewska; E. Bielanska; R. Dula; M. Krzan; M. Nattich-Rak; R.P. Socha; A. Klimek; K. Bahranowski; E.M. Serwicka, Appl. Catal. A (2016) 509, 52-65, DOI: 10.1016/j.apcata.2015.10.021, link
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