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SELECTED PUBLICATIONS

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2021

A. J. Fernández-Ropero, B. Zawadzki, E. Kowalewski, I.S. Pieta, M. Krawczyk, K. Matus, D. Lisovytskiy, and Anna Śrębowata „Continuous 2-methyl-3-butyn-2-ol selective hydrogenation on Pd/γ-Al2O3 as a green pathway of vitamin A precursor synthesis”, Catalysts 2021, 11, 501. IF= 3.520  https://doi.org/10.3390/catal11040501

E. Kowalewski, M. Krawczyk, G. Słowik, J. Kocik, I.S. Pieta, O. Chernyayeva, D. Lisovytskiy, K. Matus, A. Śrębowata “Continuous-flow hydrogenation of nitrocyclohexane toward value-added products with CuZnAl hydrotalcite derived materials”, Applied Catalysis A, General 618 (2021) 118134 IF=5.006      https://doi.org/10.1016/j.apcata.2021.118134

E. Kowalewski, B. Zawadzki, K. Matus, K. Nikiforow, A. Śrębowata, “Continuous-flow hydrogenation over resin supported palladium catalyst for the synthesis of industrially relevant chemicals”, Reaction Kinetics, Mechanisms and Catalysis Open access mode  IF=1.520

https://doi.org/10.1007/s11144-020-01922-5

2020

M. Zienkiewicz-Machnik, I. Goszewska, D. Giziński, A. Śrębowata  K. Kuzmowicz, A. Kubas, K. Matus, D. Lisovytskiy, M. Pisarek J. Sa, „Tuning nano‐nickel catalyst hydrogenation aptitude by on‐the‐fly zirconium doping”, ChemCatChem (2020) https://doi.org/10.1002/cctc.202000235 IF= 4.495

 

K. Pyra, K. A. Tarach, A. Śrębowata, I. Melián-Cabrera, K. Góra-Marek “Pd-modified beta zeolite for modulated hydro-cracking of low-density polyethylene into a paraffinic-rich hydrocarbon fuel”, Appl. Catal. B: Environmental (2020) 119070 https://doi.org/10.1016/j.apcatb.2020.119070 IF=14.229

 

E. Kowalewski, M. Asztemborska, M. Bonarowska, K. Matus, A. Śrębowata, „Effect of unimodality and bimodality of Pd nanoparticles on the catalytic activity of Pd/SiO2 in the removal of diclofenac from water” Catalysis Communications 106056

https://doi.org/10.1016/j.catcom.2020.106056 Open access mode  IF=3.612

 

B. Zawadzki, E. Kowalewski, M. Asztemborska, K. Matus, S. Casale, S. Dzwigaj, A. Śrębowata, „Palladium loaded BEA zeolites as efficient catalysts for aqueous-phase diclofenac hydrodechlorination” Catalysis Communications 145(2020) 106113

https://doi.org/10.1016/j.catcom.2020.106113    IF=3.612

I. Goszewska, M. Zienkiewicz-Machnik, W. Błachucki , A. Kubas, D. Giziński, K. Matus, K. Nikiforow, D. Lisovytskiy, A. Śrębowata, J. Szlachetko and J. Sá, “Boosting the Performance of Nano-Ni Catalysts by Palladium Doping in Flow Hydrogenation of Sulcatone”, Catalysts 2020, 10, 1267; doi:10.3390/catal10111267  Open access mode  IF= 3.520

2019

M. Radlik, A. Małolepszy, K. Matus, A. Śrębowata, W. Juszczyk, P. Dłużewski, Z. Karpiński, „Alkane isomerization on highly reduced Pd/Al2O3 catalysts. The crucial role of Pd-Al species”, Catalysis Communications 123 (2019) 17-22 https://doi.org/10.1016/j.catcom.2019.02.002 IF= 3.463

 

M. Radlik, A. Śrębowata, W.  Juszczyk,  K. Matus,  A. Małolepszy, Z. Karpiński, “n-Hexane conversion on γ-alumina supported palladium–platinum catalysts” Adsorption 25 (2019) 843–853 https://doi.org/10.1007/s10450-019-00083-9 Open access IF= 1.829

 

I.I. Kamińska, E. Kowalewski, D. Lisovytskiy, W. Błachucki, W. Raróg-Pilecka, D. Łomot Anna Śrębowata, “Batch and flow hydrotreatment of water contaminated by trichloroethylene on active carbon supported nickel catalysts”, Appl. Catal. A, General 582 (2019) 117110

2018

M.Zienkiewicz-Machnik, I. Goszewska, A. Śrębowata, A. Kubas, D. Giziński, G. Słowik, K. Matus, D. Lisovytskiy, M. Pisarek, J. Sá, „Tuning nano-nickel selectivity with tin in flow hydrogenation of 6-methyl-5-hepten-2-one by surface organometallic chemistry modification”, Catalysis Today, 308 (2018) 38-44 IF=4.667

 

I. I. Kamińska, D. Lisovytskiy, L. Valentin, Ch. Calers, Y.Millot, E. Kowalewski, A. Śrębowata, S. Dzwigaj,” Influence of pretreatment and reaction conditions on the catalytic activity of HAlBEA and CoHAlBEA zeolites in vinyl chloride formation from 1,2- dichloroethane” Microporous and Mesoporous Materials 266 (2018) 32–42 IF=3.649

 

 

M Bonarowska, M Zieliński, K Matus, J Sá, A Śrębowata, “Influence of microwave activation on the catalytic behavior of Pd-Au/C catalysts employed in the hydrodechlorination of tetrachloromethane”  Reaction Kinetics, Mechanisms and Catalysis 124 (1) (2018) 375-388  IF=1.515

 

D.Giziński, W. Błachucki, A. Śrębowata, M. Zienkiewicz-Machnik, I. Goszewska, K. Matus,  D. Lisovytskiy,  M. Pisarek, J. Szlachetko, J. Sá „On-the-fly catalyst accretion and screening in chemoselective flow hydrogenation” ChemCatChem 53 (2018) 3641-3646 IF=4.9

 

M. Bonarowska, K. Matus, A. Śrębowata, Jacinto Sá, „Application of silica-supported Ir and Ir-M (M=Pt, Pd, Au) catalysts for low-temperature hydrodechlorination of tetrachloromethane”, Science of the Total Environment 644 (2018) 287–297 IF=4.61

 

E. Janiszewska, M. Zieliński, M. Kot, E. Kowalewski, A. Śrębowata, „Aqueous-phase hydrodechlorination of trichloroethylene on Ir catalysts supported on SBA-3 materials”, ChemCatChem 10 (2018) 4109-4118 https://doi.org/10.1002/cctc.201800873 10 (2018) 4109-4118 IF=4.9

 

K. Tarach A. Śrębowata A, E. Kowalewski, K. Gołąbek, A. Kostuch, K. Kruczała, V. Girman, K. Góra-Marek, “Nickel loaded zeolites FAU and MFI: characterization and activity in water-phase hydrodehalogenation of TCE”, Appl. Catal. A, General 568 (2018) 64-75 IF=4.521

2017

I. I. Kamińska, D. Lisovytskiy, S. Casale, A. Śrębowata, S. Dzwigaj, „Influence of preparation procedure on catalytic activity of PdBEA zeolites in aqueous phase hydrodechlorination of 1,1,2-trichloroethene” Microporous and Mesoporous Materials, 237, 1 (2017) 65-73 IF=3.649

 

A. Śrębowata, Izabela I. Kamińska, S. Casale, D. Brouri, C. Calers, S. Dzwigaj,” The impact of the hydrodechlorination process on the physicochemical properties of bimetallic Ag-CuBeta zeolite catalysts”, Microporous and Mesoporous Materials 243 (2017) 56-64 IF=3.649

 

E. Kowalewski, I I. Kamińska, G. Słowik, D. Lisovytskiy, A. Śrębowata, „Effect of metal precursor and pretreatment conditions on the catalytic activity of Ni/C in the aqueous phase hydrodechlorination of 1,1,2-trichloroethene”, Reaction Kinetics, Mechanisms and Catalysis, 121 (2017) 3–16 IF=1.515

 

I.Goszewska, D. Giziński, M. Zienkiewicz-Machnik, D. Lisovytskiy, K. Nikiforov, J. Masternak, A. Śrębowata, Jacinto Sá, “A novel nano-palladium catalyst for continuous-flow chemoselective hydrogenation reactions”, Catalysis Communications 94 (2017) 65–68 IF=3,699

 

D. Giziński, I. Goszewska, M. Zieliński, D. Lisovytskiy, K. Nikiforov, J. Masternak, M. Zienkiewicz-Machnik, A. Śrębowata, J. Sá, “Chemoselective flow hydrogenation of α,β – Unsaturated aldehyde with nano-nickel”, Catalysis Communications 98 (2017) 17–21 IF=3,699

 

E. Kowalewski, M. Zienkiewicz-Machnik, D. Lisovytskiy, K. Nikiforov, K. Matus, A. Śrębowata, J. Sá, „Turbostratic carbon supported palladium as an efficient catalyst for reductive purification of water from trichloroethylene”, AIMS Materials Science, 4 (2017) 1276 – 1288 

2016

A. Śrębowata, R. Baran, G. Słowik, D. Lisovytskiy, S. Dzwigaj, „Influence of the postsynthesis preparation procedure on catalytic behaviour of Ag-loaded BEA zeolites in the hydrodechlorination of 1,2-dichloroethane into value added products”, Applied Catalysis B: Environmental, 199 (2016) 514-522  IF=9.446

 

A. Śrębowata, K. Tarach, V. Girman, K. Góra-Marek, „Catalytic removal of trichloroethylene from water over palladium loaded microporous and hierarchical zeolites”, Applied Catalysis B: Environmental 181 (2016) 550-560 IF=9.446

EARLIER PUBLICATIONS

A. Śrębowata, R. Baran, I.I. Kamińska, T. Onfroy, J–M. Krafft, S. Dzwigaj, „Catalytic hydrogen–assisted dehydrochlorination of 1,2–dichloroethane over cobalt–containing beta zeolite”, Catalysis Today, 251 (2015) 73–80 {CA} IF=3,893

 

I.I. Kamińska, A. Śrębowata, „Active carbon–supported nickel–palladium catalysts for hydrodechlorination of 1,2–dichloroethane and 1,1,2–trichloroethene”, Research on Chemical Intermediates, doi: 10.1007/s11164–015–199 {CA} IF=1,221

 

A.Śrębowata, I.I. Kamińska, „Turbostratic carbon supported Ni–Pd alloys in aqueous–phase hydrodechlorination of 1,1,2–trichloroethene”, Recyclable Catalysis 2 (2015) 17–22 IF=0

 

A.Śrębowata, „Alumina modified by niobia supported nickel catalysts for hydrodechlorination of 1,2–dichloroethane”, Recyclable Catalysis 2 (2015) 61–69 IF=0

 

O. Machynskyy, A. Śrębowata, E. Kemitz, Z. Karpiński, „Hydrodechlorination of Carbon Tetrachloride and 1,2–Dichloroethane on Palladium Nanoparticles Supported on Metal Fluorides”, International Journal of Green Energy 12 (2015) 780–786 IF=1,215

 

A. Śrębowata, I.I. Kamińska, D. Giziński, D. Wideł, J. Oszczudłowski, „Remarkable effect of soft–templating synthesis procedure on catalytic properties of mesoporous carbon supported Ni in hydrodechlorination of trichloroethylene in liquid phase”, Catalysis Today 251 (2015) 60–65{CA} IF=3,893

 

A. Śrębowata, I. Zielińska, R. Baran, G. Słowik, S. Dzwigaj, „Ag–Ni bimetallic SiBEA zeolite as an efficient catalyst of hydrodechlorination of 1,2–dichloroethane towards ethylene”, Catalysis Communications 69 (2015) 154–160 {CA} IF=3,699

R. Baran, A. Śrębowata, S. Casale, D. Łomot, S. Dzwigaj, „Hydrodechlorination of 1,2– dichloroethane on nickel loaded Beta zeolite modified by copper: Influence of nickel and copper state on product selectivity”, Catalysis Today 226 (2014) 134–140 {EFA} IF=3,893.

 

A. Śrębowata, R. Baran, D. Łomot, D. Lisovytskiy, T. Onfroy, S. Dzwigaj, „Remarkable effect of postsynthesis preparation procedures on catalytic properties of Ni–loaded BEA zeolites in hydrodechlorination of 1,2–dichloroethane”, Applied Catalysis B: Environmental, 147 (2014) 208–220 {CA} IF=7.435

 

A. Śrębowata, R. Baran, S. Casale, I.I. Kamińska, D. Łomot, D. Lisovytskiy, S. Dzwigaj, „Catalytic conversion of 1,2–dichloroethane over bimetallic Cu–Ni loaded BEA zeolites”, Applied Catalysis B: Environmental, 152–153 (2014) 317–327 {CA} IF=7.435.

 

A. Śrębowata, R. Baran, D. Lisovytskiy, I.I. Kamińska, S. Dzwigaj, „Catalytic conversion of trichloroethylene on nickel containing beta zeolites into value added products”, Catalysis Communications 57 (2014) 107–110 {CA} IF=3,699

R. Baran, I.I. Kamińska, A. Śrębowata, S. Dźwigaj, „Selective hydrodechlorination of 1,2– dichloroethane on NiSiBEA zeolite catalyst: Influence of the preparation procedure on a high dispersion of Ni centers” Microporous and Mesoporous Materials 169 (2013) 120–127 {CA} IF=3,453

 

R. Baran, A. Śrębowata, I.I. Kamińska, D. Łomot, S. Dźwigaj, „Catalytic activity of HAlBEA and NixHAlBEA zeolites in hydrogen–assisted dehydrochlorination of 1,2–dichloroethane into vinyl chloride monomer”, Microporous and Mesoporous Materials 180 (2013) 209–218 {EFA} IF=3,453.

W. Juszczyk, J.C. Colmenares, A. Śrębowata, Z. Karpiński, „The effect of copper and gold on the catalytic behavior of nickel/alumina catalysts in hydrogen – assisted dechlorination of 1,2–dichloroethane”, Catalysis Today 169 (2011) 186–191 IF=3,893

 

A.Śrębowata, W. Lisowski, J. Sobczak, Z. Karpiński, „Hydrogen–assisted dechlorination of 1,2–dichloroethane on active carbon supported palladium–copper catalysts”, Catalysis Today 175 (2011) 576–584 IF=3,893

Z. Karpiński, M. Bonarowska, D. Łomot, A. Śrębowata, P. Da Costa, J.A. Rodrigues, „Hydrogenolysis of carbon–halogen and carbon–carbon bonds over Pd/Nb2O5–Al2O3 catalysts”, Catalysis. Communications., 10 (2009) 1757–1761 IF=3,699

A. Śrębowata, M. Sadowska, W. Juszczyk, Z. Kaszkur, Z. Kowalczyk, M. Nowosielska, Z. Karpiński, „ Hydrodechlorination of 1,2–dichloroethane over silica–supported nickel–ruthenium catalysts”, Catalysis Communications, 8 (2007)11–15 IF=3,699.

 

A. Śrębowata, W. Juszczyk, Z Kaszkur, J. Sobczak, L. Kępiński and Z. Karpiński, „Hydrodechlorination of 1,2–dichloroethane and dichlorodifluoromethane over Ni/C catalysts. The effect of catalyst carbiding.”, Applied Catalysis A: General, 319 (2007) 181– 92 IF=3,942.

 

A. Śrębowata, I. Stefanowicz–Pięta, W. Juszczyk, Z. Karpiński, „Chlorine removal from 1,2– dichloroethane over Ni/C catalysts” Polish Journal of Chemistry., 81 (2007) 1521–1529. IF=0,640

 

A. Śrębowata, W. Juszczyk, Z Kaszkur and Z. Karpiński, „Hydrodechlorination of 1,2– dichloroethane on active carbon supported palladium–nickel catalysts”, Catalysis Today, 124 (2007) 28–35 IF=3,893.

M. Legawiec–Jarzyna, A. Śrębowata, W. Juszczyk and Z. Karpiński, „Hydrodechlorination of chloroalkanes on supported platinum catalysts”, Reaction Kinetics and Catalysis. Letters, 87 (2006) 291–163{EFA}. IF=0,983

A. Śrębowata, W. Juszczyk and Z. Karpiński, „Catalytic removal of chlorine from 1,2– dichloroethane”, Polish Journal of Environmental Studies 14, Supplement IV, 9 (2005) 1– {CA}  IF=0,600

M. Legawiec–Jarzyna, A. Śrębowata, W. Juszczyk and Z. Karpiński, „Hydrodechlorination of dichlorodifluoromethane (CFC–12) on Pd–Pt/Al2O3 catalysts”, Catalysis Today, 88 (2004) 93–101 {EFA} IF=3,893.

 

M. Legawiec–Jarzyna, A. Śrębowata, W. Juszczyk and Z. Karpiński, „Hydrodechlorination over Pd–Pt/Al2O3 catalysts. A comparative study of chlorine removal from dichlorodifluoromethane, carbon tetrachloride and 1,2–dichloroethane”, Applied Catalysis. A: General, 271 (2004) 61–68 {EFA}  IF=3,942

 

M. Legawiec–Jarzyna, A. Śrębowata, W. Juszczyk and Z. Karpiński, „Hydrodechlorination of dichlorodifluoromethane, carbon tetrachloride and 1,2–dichloroethane over Pt/Al2O3 catalysts”, Journal of Molecular. Catalysis. A: Chemical, 224 (2004) 171–177 {EFA} IF=3,615.

 

A. Śrębowata, W. Juszczyk and Z. Karpiński, „Hydrodechlorination of 1,2–dichloroethane on modified palladium catalysts”, Polish Journal of Environmental Studies 13, Supplement V, 103 (2004) 103–106 {CA} IF=0,600.

M. Legawiec–Jarzyna, A. Śrębowata and Z. Karpiński, „Hydrodechlorination of dichlorodifluoromethane (CFC–12) over Pd/Al2O3 and Pd–Au/Al2O3 catalysts”, Reaction Kinetics and Catalysis. Letters, 79 (2003) 157–163. {EFA} IF=0,983.

 

A. Śrębowata, W. Juszczyk and Z. Karpiński, „Hydrodechlorination of 1,2–dichloroethane over differently reduced Pd/SiO2 catalysts”, Polish Journal of Chemistry, 77 (2003) 1841–1848. IF=0,640.

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