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pl. M. Curie-Skłodowskiej 3
20-031 Lublin
WORK EXPERIENCE
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2011 – 2013 research assistant
Department of Chemical Technology, Faculty of Chemistry,
Maria Curie-Sklodowska University in Lublin
2013 – assistant professor
Department of Chemical Technology, Faculty of Chemistry,
Maria Curie-Sklodowska University in Lublin
EDUCATION
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2005 Bachelor of Science in Chemistry,
Maria Curie-Sklodowska University in Lublin
Title: Application of noble metals in catalysis
Supervisor: Prof. dr hab. Zbigniew Hubicki
2007 Master of Science in Chemistry
Maria Curie-Sklodowska University in Lublin
Title: Study on brilliant yellow dye sorption on anion exchangers of different basicity of functional groups
Supervisor: Prof. dr hab. Zbigniew Hubicki
2011 Ph.D. in Chemical Sciences
Maria Curie-Sklodowska University in Lublin
Title: Study on acid and reactive dyes sorption on different kind of anion exchangers
Supervisor: Prof. dr hab. Zbigniew Hubicki
Publications in journals in the Journal Citation Reports (JRC) database
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1. M. D. Fernandez-Ramos, M. Greluk, A. J. Palma, E. Arroyo-Guerrero, J. Gomez-Sanchez, L. F. Capitan-Vallvey, The use of one-shot sensors with a dedicated portable electronic radiometer for nitrate measurements in aqueous solutions, Meas. Sci. Technol., 19 (2008) 1-7.
2. M. Greluk, Z. Hubicki, Sorption of SPADNS azo dye on polystyrene anion exchangers: Equilibrium and kinetic studies, J. Hazard. Mater., 172 (2009) 289-297.
3. M. Greluk, Z. Hubicki, Zastosowanie jonitów chelatujących otrzymanych w wyniku modyfikacji makroporowatych anionitów mocno zasadowych za pomocą SPADNS w procesie wydzielania jonów Cu(II), Ni(II) i Co(II), Przem. Chem., 89 (2010) 232-236.
4. M. Greluk, Z. Hubicki, Kinetics, isotherm and thermodynamic studies of Reactive Black 5 removal by acrylic resins, Chem. Eng. J., 162 (2010) 919-926.
5. M. Greluk, Z. Hubicki, Anionity akrylowe modyfikowane SPADNS jako jonity chelatujące do zagęszczania i rozdzielania jonów metali, Przem. Chem., 90 (2011) 104-111.
6. M. Greluk, Z. Hubicki, Comparison of the gel anion exchangers for removal of Acid Orange 7 from aqueous solution, Chem. Eng. J., 170 (2011) 184-193.
7. M. Greluk, Z. Hubicki, Efficient removal of Acid Orange 7 dye from water using the strongly basic anion exchange resin Amberlite IRA-958, Desalination, 278 (2011) 219-226.
8. M. Greluk, Z. Hubicki, Effect of basicity of anion exchangers and numer and positions of sulfonic groups of acid dyes on dyes adsorption on macroporous anion exchangers with styrenic polimer matrix, Chem. Eng. J., 215-216 (2012) 731-739.
9. M. Greluk, Zastosowanie jonitów, membran jonowymiennych, sorbentów polimerowych oraz biopolimerów w procesie usuwania barwników kwasowych i reaktywnych z roztworów wodnych, Przem. Chem., 92 (2013) 469-478.
10. M. Greluk, Sorpcja barwników kwasowych i reaktywnych z roztworów wodnych na minerałach, Przem. Chem., 92 (2013) 646-654.
11. M. Greluk, Z. Hubicki, Evaluation of polystyrene anion exchange resin for removal of reactive dyes from aqueous solutions, Chem. Eng. Res. Des., 91 (2013) 1343-1351.
12. M. Greluk, P. Rybak, G. Słowik, M. Rotko, A. Machocki, Comparative study on steam and oxidative steam reforming of ethanol over 2KCo/ZrO2 catalyst, Catal. Today Part A 242 (2015) 50-59.
13. M. Greluk, M. Rotko, A. Machocki, Conversion of ethanol over Co/CeO2 and KCo/CeO2 catalysts for hydrogen production, Catals Lett, 146 (2016) 163-173.
14. M. Greluk, G. Słowik, M. Rotko, A. Machocki, Steam reforming and oxidative steam reforming of ethanol over PtKCo/CeO2 catalyst, Fuel 183 (2016) 518-530.
15. G. Słowik, M. Greluk, A. Machocki, Microscopic characterization of changes in the structure of the KCo/CeO2 catalyst during the steam reforming of ethanol, Mater Chem and Phys, 173 (2016) 219-237.
16. G. Słowik, A. Gawryszuk-Rżysko, M. Greluk, A. Machocki, Estimation of average crystallites size of active phase in ceria-supported cobalt-based catalysts by hydrogen chemisorption vs TEM and XRD methods, Catal Lett 146 (2016) 2173-2184.
17. W. Gac, W. Zawadzki, G. Słowik, M. Greluk, J. Pawlonka, A. Machocki, Chromium modified zinc oxides, J Therm Anal and Calorim, 125 (2016) 1205-1215.
18. J. Pawlonka, W. Gac, M. Greluk, G. Słowik, Application of microemulsion method for development of methanol steam reforming Pd/ZnO catalysts, J Therm Anal and Calorim, 125 (2016) 1265-1272.
19. S. Turczyniak, M. Greluk, G. Słowik, W. Gac, A. Machocki, S. Zafeiratos, The surface state and the catalytic performance of Co/CeO2 catalysts in the steam reforming of ethanol, ChemCatChem 9 (2017) 782-797.
20. G. Słowik, M. Greluk, M. Rotko, A. Machocki, Evolution of the structure of unpromoted and potassium-promoted ceria-supported nickel catalysts in the steam reforming of ethanol, Appl. Catal. B: Env. 221 (2018) 490-509.
21. W. Gac, M. Greluk, G. Słowik, S. Turczyniak-Surdacka, Structural and surface changes of cobalt modified manganese oxide during activation and ethanol steam reforming reaction, Appl. Surf. Sci. 440 (2018) 1047-1062.
22. E. Łastewiecka, A. Flis, M. Stankevič, M. Greluk, G. Słowik, W. Gac, P-Arylation of secondary phosphine oxides catalyzed by nickel-supported nanoparticles, Org. Chem. Front. 5 (2018) 2079-2095.
23 W. Gac, M. Greluk, G. Słowik, Y. Millot, L. Valentin, S. Dzwigaj, Effects of dealumination on the performance of Ni-containing BEA catalysts in bioethanol steam reforming, Appl. Catal. B: Env. 237 (2018) 94-109.
24. M. Greluk, M. Rotko, G. Słowik, S. Turczyniak-Surdacka, Hydrogen production by steam reforming of ethanol over Co/CeO2 catalysts: Effect of cobalt content, J. Enery. Inst.92 (2019) 222-238.
25. W. Gac, W. Zawadzki, M. Greluk, G. Słowik, A. Machocki, J. Papavasiliou, G. Avgouropoulos, Investigation of the Inhibiting Role of Hydrogen in the Steam Reforming of Methanol, ChemCatChem 11(14) (2019) 3264-3278.
26. W. Gac, W. Zawadzki, M. Rotko, G. Słowik, M. Greluk, CO2 Methanation in the Presence of Ce-Promoted Alumina Supported Nickel Catalysts: H2S Deactivation Studies, Top. Catal. 62(5-6) (2019) 524-534.
27. S. Neuberg, H. Pennemann, V. Shanmugam, R. Thiermann, R. Zapf, W. Gac, M. Greluk, W. Zawadzki, G. Kolb, CO2 Methanation in Microstructured Reactors – Catalyst Development and Process Design, Chem. Eng. Technol. 42(10) (2019) 2076-2084.
28. M. Greluk, M. Rotko, S. Turczyniak-Surdacka, Comparison of catalytic performance and coking resistant behaviors of cobalt- and nickel based catalyst with different Co/Ce and Ni/Ce molar ratio under SRE conditions, Appl. Catal. A: Gen. 590 (2020) 117334.
29. M. Greluk, M. Rotko, S. Turczyniak-Surdacka, Enhanced catalytic performance of La2O3 promoted Co/CeO2 and Ni/CeO2 catalysts for effective hydrogen production by ethanol steam reforming: La2O3 promoted Co(Ni)/CeO2 catalysts in SRE, Renew. Energ. 155 (2020)378-395.
30 W. Gac, W.Zawadzki, M. Rotko, M. Greluk, G. Słowik, G. Kolb, Effects of support composition on the performance of nickel catalysts in CO2 methanation reaction, Catal. Today 155 (2020) 468-482.
31. G. Grzybek, M. Greluk, P. Indyka, K. Góra-Marek, P. Legutko, G. Slowik, S.Turczyniak-Surdacka, M. Rotko, Z. Sojka, A. Kotarba, Cobalt catalyst for steam reforming of ethanol–Insights into the promotional role of potassium, Int. J. Hydrogen Energ. 45 (2020) 22658-22673.
32. G. Grzybek, M. Greluk, K. Tarach, K. Pyra, G. Słowik, M. Rotko, K. Góra-Marek, Bioethanol steam reforming over cobalt-containing USY and ZSM-5 commercial zeolite catalysts, Front. Mater. 7 (2020) 597528.
33. G. Słowik. M. Greluk, M. Rotko, A. Machocki, Influence of composition and morphology of the active phase on the catalytic properties of cobalt-nickel catalysts in the steam reforming of ethanol, Mater. Chem. Phys. 258 (2021) 123970.
34. M. Greluk, W. Gac, M. Rotko, G. Słowik, S. Turczyniak-Surdacka, Co/CeO2 and Ni/CeO2 catalysts for ethanol steam reforming: Effect of the cobalt/nickel dispersion on catalysts properties, J. Catal. 392 (2021) 159-178.
Publications not included in the Journal Citation Reports (JRC) database
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1. M. Greluk, Z. Hubicki, M. Wawrzkiewicz, A. Wołowicz, Application of weakly basic anion exchanger for removal of Remazol Black B, Challenges of Modern Technology, 2(3) (2011) 29-33.
2. M. Greluk, Z. Hubicki, A. Wołowicz, Sorption of the acid dyes onto strongly basic anion exchanger: Kinetic and equilibrium studies, Challenges of Modern Technology, 2(1) (2011) 74-78.
3. M. Wawrzkiewicz, Z. Hubicki, M. Greluk, A. Wołowicz, Sunset Yellow sorption on weak base anion exchanger-kinetic and equilibrium studies, Challenges of Modern Technology, 2(2) (2011) 66-70.
4. A. Wołowicz, Z. Hubicki, M. Greluk, M. Wawrzkiewicz, Comparison of Varion resins selectivity towards palladium(II) ions in hydrochloric acid solutions with sodium chloride addition, Challenges of Modern Technology, 2(3) (2011) 34-37.
5. A. Wołowicz, Z. Hubicki, M. Greluk, Equilibrium and kinetic studies of palladium(II) ions sorption onto Dowex resins, Challenges of Modern Technology, 2(2) (2011) 71-75.
Monographs
1. M. Greluk, Zastosowanie jonitów różnego typu w procesie odzysku jonów metali szlachetnych, Adsorbenty i katalizatory Wybrane technologie a środowisko, pod red. Janusza Ryczkowskiego, Rzeszów 2012
Participation in the projects
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1. Project Development of a Portable Internal Reforming Methanol High Temperature PEM Fuel Cell System (IRMFC)
Seventh Framework Programme (Project No 325358)
implementation period: 2013-2016
role: co-investigator
2. Project Regulation of mechanism of the ethanol conversion in presence of water by the size of nanoparticles of an active phase of metal oxide catalysts
Sonata 10, National Science Centre (Project No 2015/19/D/ST5/01931)
implementation period: 2016-2020
role: principal investigator
3. Project Development of an Innovative Concept for Carbon Dioxide Utilization as Side Stream of Integrated Biorefinery Concepts (ICOCAD)
National Centre for Research and Development (BIOENERGY/ICOCAD/04/2016)
implementation period: 2016-2019
role: co-investigator
Patents
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1. Patent No 234050, Method of preparation of catalysts to steam reforming of methanol, 27.01.2020
List of awards and scholarships
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1. Erasmus Socrates Grant to conduct research project Study of a simplified measurement procedure for nitrate determination based on a portable electronic photometer and disposable sensors based on ionophore-chromoionophore chemistry at the Department of Analytical Chemistry, University of Granada, Granada (Spain), 02/2007-06/2007
2. A scholarship for an outstanding Ph.D. students granted by His Magnificence Rector of UMCS in the 2009/2010 academic year, Lublin, 10/2009-09/2010
3. A scholarship for Ph.D students granted under the (Human Capital Operational Programme, Lublin, 2020
4. A scholarship for an outstanding Ph.D. students granted by His Magnificence Rector of UMCS in the 2010/2011 academic year, Lublin, 10/2010-09/2011
5. A distinction of the doctoral thesis by the Council of the UMCS Faculty of Chemistry, Lublin 2011
6. An award of the Dean of the UMCS Faculty of Chemistry for the best doctoral thesis defended in the 2010/2011 academic year, Lublin, 2011
7. A scholarships granted by the Polish Catalysis Club to finance costs related to the participation in in the 11th European Congress on Catalysis (EUROPACAT), Kraków 2013
8. A scholarship for an outstanding young scientist granted by the Minister of Science and Higher Education for a period of 36 months, Warszawa, 2017-2020
9. A third degree team award of His Magnificence Rector of UMCS for an outstanding scientific work, especially for highly scored scientific publication, Lublin, 2019
10. A third degree team award of His Magnificence Rector of UMCS for an outstanding scientific work, especially for highly scored scientific publication, Lublin, 2020