{"id":714,"date":"2020-09-11T23:49:00","date_gmt":"2020-09-11T21:49:00","guid":{"rendered":"http:\/\/home.agh.edu.pl\/~xi\/?page_id=714"},"modified":"2026-04-28T08:46:09","modified_gmt":"2026-04-28T06:46:09","slug":"home-en","status":"publish","type":"page","link":"https:\/\/home.agh.edu.pl\/~xi\/en\/home-en\/","title":{"rendered":"Home page – Konrad \u015awierczek"},"content":{"rendered":"

About me<\/h2>\n<\/div>

Professional information<\/h3>\n<\/div>
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I work at the Department of Hydrogen Energy<\/a>, Faculty of Energy and Fuels<\/a>, AGH University of Krakow<\/a>. Poland.<\/h4>\n

My professional career is closely connected with AGH, where I obtained my PhD (doctoral thesis: “Structure, transport and electrochemical properties of Li-Mn-O and Li-Mn-Co-O spinels. Application in 3 V and 4 V lithium cells<\/em>“, Faculty of Materials Science and Ceramics<\/a>), habilitation (monograph: “Designing physicochemical properties of cathode oxide materials for IT-SOFC and Li-ION cells<\/em>” ) and the title of professor. From 2016 to 2020 and 2020 to 2024, I served as Vice-Dean at the Faculty of Energy and Fuels. Currently, I am the Head of the Department of Hydrogen Energy<\/a>, and I have also been elected to the University Council<\/a> for the 2025-2028 term.<\/h4>\n

My scientific interests focus on research into the correlation between crystal structure and the transport and electrocatalytic properties of oxide materials, including, beyond the topics of SOFC fuel cells, SOEC electrolyzers, and Li-ion batteries, also research on materials for oxygen storage and ceramic membranes with mixed ionic-electronic conductivity.<\/h4>\n

These studies are carried out within international and national research projects, in the framework of close international and national cooperation.<\/h4>\n<\/div>
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Interests<\/h3>\n<\/div>

Travel, culture and art of Asia, numismatics (ancient period).<\/h4>\n<\/div>
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<\/i>Science<\/span><\/a><\/div>
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Science<\/span><\/h2>\n<\/div>

Scientific and research activity<\/h3>\n<\/div>

Bibliometric data:<\/strong><\/h4>\n

ORCID: 0000-0003-4519-389X<\/a><\/h4>\n

ResearcherID: S-7666-2016<\/a><\/h4>\n

Scopus: 6603619667<\/a><\/h4>\n

Polish Scientific Bibliography<\/a><\/h4>\n

People of Science<\/a><\/h4>\n

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Number of publications from the Journal Citation Reports database: 210<\/strong><\/span>
\nTotal value of the IF factor: > 1100<\/strong><\/span>
\nNumber of citations without self-citing: > 6400<\/strong><\/span>
\nHirsch index: 46<\/strong><\/span><\/p>\n

Presentation of research topics (in Polish)<\/strong><\/a><\/span><\/h4>\n<\/div>
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<\/i>Research projects<\/span><\/a><\/div>
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List of major publications<\/h3>\n<\/div>

<\/i><\/i><\/span>2026<\/span><\/a><\/h4><\/div>
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1. M. Nowakowska, J. D\u0105browa, J. Adamczyk, M. Zajusz, K. Berent, R. Merkle, G. Gazdowicz, K. \u015awierczek
\u201eExploiting Zn and Zr synergy in co-doped Sr(Fe1-xMox)O3-\u03b4 – versatile Co-free electrode materials for Solid Oxide Fuel Cells\u201d
Journal of Materials Chemistry A (2026), accepted
IF (2024) 9.5<\/p>\n

2. Z. Sun, Z. Du, K. \u015awierczek, J. Zeng, H. Zhao
\u201eHigh-entropy Engineering Tuning Electrochemical Activity and Stability of Layered Double Perovskite Oxygen Electrode for High-Performance Protonic Ceramic Cells\u201d
Journal of Materials Chemistry A (2026), accepted
IF (2024) 9.5<\/p>\n

3. K. Liao, Z. Wang, X. Xin, K. Zheng, K. \u015awierczek, Z. Mandic, R. Liu, X. Yan, S. Sun, M. Zhou
\u201eA high-energy-density, long-cycling lithium-ion battery with a unique current collector-free integrated cathode\u201d
Electrochimica Acta 545 (2026) 147756
IF (2024) 5.6<\/p>\n<\/div><\/div><\/div>

<\/i><\/i><\/span>2025<\/span><\/a><\/h4><\/div>
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1. K. \u015awierczek, K. Zheng, L. Zhang, Y. Ling, M. Zhou
\u201eEditorial for special issue on high-entropy and multicomponent-doped materials for energy applications: Innovations in energy conversion and storage\u201d
International Journal of Minerals, Metallurgy and Materials 32(11) (2025) 2593-2597
IF (2024) 7.2<\/p>\n

2. J. Winiarski, P. Winiarz, K. \u015awierczek
\u201eMulticomponent Gd1-xSmxBa0.5Sr0.5CoCuO5+\u03b4 double perovskites as oxygen electrodes for solid oxide cells: Effect of chemical composition and electrospun morphology\u201d
International Journal of Minerals, Metallurgy and Materials 32(11) (2025) 2628-2638
IF (2024) 7.2<\/p>\n

3. K. Zieli\u0144ska, J. D\u0105browa, M. Zajusz, M. Gajewska, K. \u015awierczek
\u201eRole of 4d\/5d dopants in designing SrCoO3-\u03b4-based air electrodes for Solid Oxide Fuel Cells\u201d
Journal of Alloys and Compounds 1036 (2025) 181795
IF (2024) 6.3<\/p>\n

4. M. Mo\u017adzierz, T. Holstun, Z. Cai, G.-H. Lee, H.-M. Hau, X. Yang, Y. Chen, P. Czaja, W. Yang, K. \u015awierczek, G. Ceder
\u201eTuning cation (dis)order in Cr-based Li-excess oxide cathode materials to improve Li+ transport properties\u201d
Advanced Energy Materials 15(33) (2025) 2502157
IF (2024) 26.0<\/p>\n

5. Z. Luo, Y. Cai, Y. Zhou, X. Xin, M. Zhou, Y. Liu, Z. Wu, W. Sun, L. Jonghee, K. Zheng, K. \u015awierczek, S. Papovi\u0107
\u201eSynergistic electrolyte design for dual-interface stability in sodium-ion batteries\u201d
Journal of Materials Chemistry A 13(23) (2025) 17519-17527
IF (2024) 9.5<\/p>\n

6. K. Zhou, S. Gao, S. Papovi\u0107, K. Zheng, K. \u015awierczek, Z. Mandic, M. Zhou, X. Xin
\u201eLithiated zeolite-enhanced gel electrolytes for lithium metal batteries with diverse cathodes including LiFePO4, LiMn2O4, and O2\u201d
Electrochimica Acta 532 (2025) 146482
IF (2024) 5.6<\/p>\n

7. K. Zhou, Z. Fan, S. Papovi\u0107, K. Zheng, K. \u015awierczek, Z. Mandic, M. Zhou, X. Xin
\u201eEnhancing stability PVDF-HFP-based ternary gel electrolyte for dendrite-free lithium metal anodes\u201d
Journal of Power Sources 647 (2025) 237368
IF (2024) 7.9<\/p>\n

8. Y. Cai, Z. Luo, K. Liao, X. Xin, M. Zhou, Y.-J. Cheng, R. Liu, X. Yan, S. Papovi\u0107, K. Zheng, K. \u015awierczek
\u201eDual-site Zn doping boosts longevity and air stability of O3-type NaNi1\/3Fe1\/3Mn1\/3O2 cathode for high-performance sodium-ion batteries\u201d
Journal of Power Sources 631 (2025) 236272
IF (2024) 7.9<\/p>\n

9. A. Kulka, K. Walczak, J. P\u0142otek, B. Fu, A. Arifiadi, K. \u015awierczek, A. Hanc, M. Kasprzyk, M. Ihsan Ul Haq, G.-H. Lee, W. Yang., M. Winter, J. Kasnatscheew, R. Kostecki
\u201eEvaluating the influence of surface reconstruction layers in Li\/Mn-Rich layered oxide (LMR) electrodes on the anionic redox reactions and electrochemical properties of LMR || Li Cells\u201d
Energy Storage Materials 75 (2025) 104001
IF (2024) 20.2<\/p>\n

10. M. Mo\u017adzierz, M. Gajewska, P. Czaja, B. Fu, J. D\u0105browa, K. \u015awierczek
\u201eElectrochemically-induced amorphization in multicomponent spinel oxide Li-ion cell anodes: Non-equimolarity enables improved electrochemical performance\u201d
Chemical Engineering Journal 504 (2025) 159046
IF (2024) 13.2<\/p>\n

11. K. Zieli\u0144ska, J. D\u0105browa, M. Zajusz, M. Szymczak, K. Li, P. Winiarz, M. Gajewska, K. \u015awierczek
\u201eAlkali free perovskites – Exploiting B-site synergies in Sr-free, high-entropy cathodes for intermediate-temperature Solid-Oxide fuel cells\u201d
Chemical Engineering Journal 504 (2025) 158974
IF (2024) 13.2<\/p>\n

12. Z. Du, X. Dong, T. Wang, K. \u015awierczek, H. Zhao
\u201eFluorine doping for the enhanced electrochemical performance of SrCo0.8Ti0.2O3-based perovskite cathode for Solid Oxide Cells\u201d
International Journal of Hydrogen Energy 99 (2025) 35-44
IF (2024) 8.3<\/p>\n

13. M. Zhang, J. Liu, Z. Du, Y. He, Y. Gong, Z. Sun, B. Fu, K. \u015awierczek, J. Zeng, H. Zhao
\u201eHighly active and stable oxygen electrode PrBaCo2O5+\u03b4-Ba2CoWO6 enabled by In Situ formed misfit dislocation interface for reversible solid oxide cell\u201d
Applied Catalysis B: Environment and Energy 361 (2025) 124669
IF (2024) 21.1<\/p>\n<\/div><\/div><\/div>

<\/i><\/i><\/span>2024<\/span><\/a><\/h4><\/div>
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1. Z. Wei, X. Wang, M. Zhou, S. Papovi\u0107, K. Zheng, K. \u015awierczek, J. Wu, X. Xin
\u201eRevitalizing lithium metal batteries: Strategies for tackling dead lithium formation and reactivation\u201d
Small 20(51) (2024) 2407395
IF 12.1<\/p>\n

2. S. Jia, K. Liao, M. Zhou, X. Xin, Y. Luo, Y.-J. Cheng, R. Liu, X. Yan, J. Lee, S. Papovi\u0107, K. Zheng, K. \u015awierczek
\u201ePrussian white\/reduced graphene oxide composite as cathode material to enhance the electrochemical performance of sodium-ion battery\u201d
Langmuir 40(39) (2024) 20485-20494
IF 3.9<\/p>\n

3. K. Machaj, P. Winiarz, A. Niemczyk, Y. Naumovich, R. Kluczowski, K. Li, K. Zheng, K. \u015awierczek
\u201eA study of the novel Cu-based materials as a potential air electrode for high-temperature reversible solid oxide cells\u201d
International Journal of Hydrogen Energy 95 (2024) 1222-1234
IF 8.3<\/p>\n

4. P. Winiarz, E.A. Sroczyk, A. Brzoza-Kos, P. Czaja, K. Kapusta, K. \u015awierczek
\u201eSmBa0.5Sr0.5CoCuO5+\u03b4 and Sm0.5Ba0.25Sr0.25Co0.5Cu0.5O3-\u03b4 oxygen electrode materials for Solid Oxide Fuel Cells: Crystal structure and morphology influence on the electrocatalytic activity\u201d
Acta Materialia 277 (2024) 120186
IF 9.3<\/p>\n

5. Q. Ren, Y. Zhang, H. Tao, L. Qin, K. \u015awierczek, W. Guan, J. Wang, C. Xia, L. Zhu
\u201eAn innovative and facile synthesis route of (La,Sr)2FeO4+\u03b4-La0.4Sr0.6FeO3-\u03b4 composite as a highly stable air electrode for reversible solid oxide cell applications\u201d
Journal of Advanced Ceramics 13(9) (2024) 1337-1348
IF 16.6<\/p>\n

6. B. Fu, M. Mo\u017adzierz, A. Kulka, K. \u015awierczek
\u201eRecent progress in Ni-rich layered oxides and related cathode materials for Li-ion cells\u201d
International Journal of Minerals, Metallurgy and Materials 31(11) (2024) 2345-2367
IF 7.2<\/p>\n

7. B. Fu, A. Kulka, B. Wang, M. Mo\u017adzierz, A. Brzoza-Kos, P. Czaja, K. \u015awierczek
\u201eNi-rich LiNi0.905Co0.043Al0.052O2 cathode material for high-energy density Li-ion cells: Tuning lithium content, structural evolution, and full-cell performance\u201d
Electrochimica Acta 494 (2024) 144455
IF 5.6<\/p>\n

8. J. Zhao, B. Wang, Z. Zhan, M. Hu, F. Cai, K. \u015awierczek, K. Yang, J. Ren, Z. Guo, Z. Wang
\u201eBoron-doped three-dimensional porous carbon framework\/carbon shell encapsulated silicon composites for high-performance lithium-ion battery anodes\u201d
Journal of Colloid and Interface Science 664 (2024) 790-800
IF 9.7<\/p>\n

9. Z. Sun, Z. Shen, Z. Du, Y. Zhang, Y. Gong, M. Zhang, K. Wang, K. \u015awierczek, J. Zeng, H. Zhao
\u201eAtomic-scale engineering for new generation air electrode materials of Solid Oxide Cells: Quintuple perovskite Sm2Ba3Co2Fe3O15-\u03b4 with twinned crystal structure\u201d
Advanced Functional Materials 34(39) (2024) 2403312
IF 19.0<\/p>\n

10. K.A. Bogdanowicz, A. Iwan, K. Dysz, W. Przybyl, M. Marzec, K. Cichy, K. \u015awierczek
\u201eAir-stable and eco-friendly symmetrical imine with thiadiazole moieties in neutral and protonated form for perovskite photovoltaics\u201d
Materials 17(8) (2024) 1909
IF 3.2<\/p>\n

11. J. Bai, Z. Li, X. Wang, K. \u015awierczek, C. Wu, H. Zhao
\u201eLimitations and strategies towards high-performance red phosphorus materials for Li\/Na-ion batteries\u201d
Energy Material Advances 6 (2024) 86
IF 15.9<\/p>\n

12. B. Wang, F. Cai, C. Chu, B. Fu, K. \u015awierczek, L. Li, H. Zhao
\u201eModification of the Ni-rich layered cathode material by Hf addition: Synergistic microstructural engineering and surface stabilization\u201d
ACS Applied Materials & Interfaces 16(10) (2024) 12599-12611
IF 8.2<\/p>\n

13. J. Wang, S. Zhang, H. Zhao, J. Liu, M.-A. Yang, Z. Li, K. \u015awierczek
\u201eConstruction of an intimately riveted Li\/garnet interface with ultra-low interfacial resistance for solid-state batteries\u201d
Journal of Materials Chemistry A 12(8) (2024) 4903-4911
IF 9.5<\/p>\n

14. H. Yang, A. Wu, Z. Liu, Y. Su, X. Hu, K. \u015awierczek, J. Luo, A. Meng, Y. Lu, Z. Lu, Y. Li, Y. Zhang, W. Guan
\u201eA power-to-hydrogen nearby consumption system based on a flat-tube rSOC coupled with local photovoltaics and Yellow River water\u201d
International Journal of Hydrogen Energy 57 (2024) 1111-1117
IF 8.3<\/p>\n

15. Z. Du, L. Shen, Y. Gong, M. Zhang, J. Zhang, J. Feng, K. Li, K. \u015awierczek, H. Zhao
\u201eSelf-assembled perovskite nanocomposite with beneficial lattice tensile strain as high active and durable cathode for low temperature Solid Oxide Fuel Cell\u201d
Advanced Functional Materials 34(4) (2024) 2310790
IF 19.0<\/p>\n<\/div><\/div><\/div>

<\/i><\/i><\/span>2023<\/span><\/a><\/h4><\/div>
1. M. Mo\u017adzierz, Z. Feng, A. Brzoza-Kos, P. Czaja, B. Fu, K. \u015awierczek
\n\u201eUnderstanding the electrochemical reaction mechanism to achieve excellent performance of the conversion-alloying Zn2SnO4 anode for Li-ion batteries\u201d
\nJournal of Materials Chemistry A 11(38) (2023) 20686-20700
\nIF 10.7<\/p>\n

2. J. Suchanicz, D. Sitko, K. Stanuch, K. \u015awierczek, G. Jag\u0142o, A. Kruk, K. Kluczewska-Chmielarz, K. Konieczny, P. Czaja, J. Aleksandrowicz, W. Wieczorek, J. Grygierek, M. Sokolowski, G. Stachowski, M. Antonova, A. Sternberg
\n\u201eTemperature and E-poling evolution of structural, thermal, vibrational, dielectric and ferroelectric properties of Ba1-xSrxTiO3 ceramics (x = 0, 0.1, 0.2, 0.3, 0.4 and 0.45)\u201d
\nMaterials 16(18) (2023) 6316
\nIF 3.1<\/p>\n

3. K. Li, K. \u015awierczek, P. Winiarz, A. Brzoza-Kos, A. St\u0119pie\u0144, Z. Du, Y. Zhang, K. Zheng, K. Cichy, A. Niemczyk, Y. Naumovich
\n\u201eUnveiling the electrocatalytic activity of the GdBa0.5Sr0.5Co2-xCuxO5+\u03b4 (x \u2265 1) oxygen electrodes for Solid Oxide Cells\u201d
\nACS Applied Materials & Interfaces 15(33) (2023) 39578-39593
\nIF 8.3<\/p>\n

4. W. Skubida, D. Jaworski, A. Mielewczyk-Gry\u0144, S. Wachowski, T. Miruszewski, K. Cichy, K. \u015awierczek, M. Gazda
\n\u201eCharge transport in high-entropy oxides\u201d
\nThe Journal of Physical Chemistry C 127(29) (2023) 14534-14544
\nIF 3.3<\/p>\n

5. Z. Yang, Z. Li, Y. Yang, Q. Zhang, H. Xie, J. Wang, K. \u015awierczek, H. Zhao
\n\u201eWell-dispersed Fe nanoclusters for effectively increasing the initial Coulombic efficiency of the SiO anode\u201d
\nACS Nano 17(8) (2023) 7806-7812
\nIF 15.8<\/p>\n

6. A. Kusior, P. Jele\u0144, M. Sitarz, K. \u015awierczek, M. Radecka
\n\u201e3D flower-like TiO2 nanostructures: Anatase-to-rutile phase transformation and photoelectrochemical application\u201d
\nCatalysts 13(4) (2023) 671
\nIF 3.8<\/p>\n

7. Y. Zhang, H. Zhao, M. Zhang, Z. Du, W. Guan, S.C. Singhal, K. \u015awierczek
\n\u201eBoosting electrode reaction kinetics of SSOFCs by synergistic effect of nanoparticles co-decoration on both cathode and anode\u201d
\nChemistry of Materials 35(2) (2023) 499-510
\nIF 7.2<\/p>\n

8. J. Su\u0142owska, M. Szumera, D. Madej, B. Handke, K. \u015awierczek
\n\u201eMelting behavior of sulfur-bearing silicate-phosphate glass batches\u201d
\nJournal of Thermal Analysis and Calorimetry 148(4) (2023) 1463-1480
\nIF 3.0<\/p>\n

9. M. Lubszczyk, T. Brylewski, P. Rutkowski, K. \u015awierczek, A. Kruk
\n\u201ePreparation and physicochemical properties of K0.5Na0.5NbO3 ceramics obtained using a modified wet chemistry method\u201d
\nMaterials Science & Engineering B 288 (2023) 116135
\nIF 3.9<\/div><\/div><\/div>

<\/i><\/i><\/span>2022<\/span><\/a><\/h4><\/div>
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1. J. D\u0105browa, A. St\u0119pie\u0144, M. Szymczak, M. Zajusz, P. Czaja, K. \u015awierczek
\n\u201eHigh-entropy approach to double perovskite cathode materials for Solid Oxide Fuel Cells: is multicomponent occupancy in (La,Pr,Nd,Sm,Gd)BaCo2O5+\u03b4 affecting physicochemical and electrocatalytic properties?\u201d
\nFrontiers in Energy Research 10 (2022) 899308
\nIF 3.4<\/p>\n

2. J. D\u0105browa, J. Adamczyk, A. St\u0119pie\u0144, M. Zajusz, K. Bar, K. Berent, K. \u015awierczek
\n\u201eSynthesis and properties of the gallium-containing Ruddlesden-Popper oxides with high-entropy B-site arrangement\u201d
\nMaterials 15(18) (2022) 6500
\nIF 3.4<\/p>\n

3. A. Szymaszek-Wawryca, U. D\u00edaz, D. Duraczy\u0144ska, K. \u015awierczek, B. Samojeden, M. Motak
\n\u201eCatalytic performance and sulfur dioxide resistance of one-pot synthesized Fe-MCM-22 in selective catalytic reduction of nitrogen oxides with ammonia (NH3-SCR) – The effect of iron content\u201d
\nInternational Journal of Molecular Sciences 23(18) (2022) 10754
\nIF 5.6<\/p>\n

4. M. Mo\u017adzierz, K. \u015awierczek, J. D\u0105browa, M. Gajewska, A. Hanc, Z. Feng, J. Cie\u015blak, M. K\u0105dzio\u0142ka-Gawe\u0142, J. P\u0142otek, M. Marzec, A. Kulka
\n\u201eHigh-entropy Sn0.8(Co0.2Mg0.2Mn0.2Ni0.2Zn0.2)2.2O4 conversion-alloying anode material for Li-ion cells: Altered lithium storage mechanism, activation of Mg, and origins of the improved cycling stability\u201d
\nACS Applied Materials & Interfaces 14(37) (2022) 42057-42070
\nIF 9.5<\/p>\n

5. D. Cai, Z. Liu, J. Yang, Y. Zhang, M. Chai, J. Wang, W. Guan, K. \u015awierczek
\n\u201eEnhanced performance and durability of lanthanum strontium cobalt ferrite by in-situ solvothermal modification\u201d
\nJournal of the European Ceramic Society 42(12) (2022) 5008-5014
\nIF 5.7<\/p>\n

6. K. Li, A. Niemczyk, K. \u015awierczek, A. St\u0119pie\u0144, Y. Naumovich, J. D\u0105browa, M. Zajusz, K. Zheng, B. Dabrowski
\n\u201eCo-free triple perovskite La1.5Ba1.5Cu3O7\u00b1\u03b4 as a promising air electrode material for Solid Oxide Fuel Cells\u201d
\nJournal of Power Sources 532 (2022) 231371
\nIF 9.2<\/p>\n

7. N. Yao, Y. Zhang, X. Rao, Z. Yang, K. Zheng, K. \u015awierczek, H. Zhao
\n\u201eA review on the critical challenges and progress of SiOx-based anodes for lithium-ion batteries\u201d
\nInternational Journal of Minerals, Metallurgy and Materials 29(4) (2022) 876-895
\nIF 4.8<\/p>\n

8. C. Sun, P. Summa, Y. Wang, K. \u015awirk, A. Mir\u00f3 i Rovira, S. Casale, K. \u015awierczek, C. Hu, M. R\u00f8nning, P. Da Costa
\n\u201eBoosting CO2 reforming of methane via the metal-support interaction in mesostructured SBA-16-derived Ni nanoparticles\u201d
\nApplied Materials Today 26 (2022) 101354
\nIF 8.3<\/p>\n

9. B. Wang, H. Zhao, F. Cai, Z. Liu, G. Yang, X. Qin, K. \u015awierczek
\n\u201eSurface engineering with ammonium niobium oxalate: A multifunctional strategy to enhance electrochemical performance and thermal stability of Ni-rich cathode materials at 4.5 V cutoff potential\u201d
\nElectrochimica Acta 403 (2022) 139636
\nIF 6.6<\/p>\n

10. A. Niemczyk, R. Merkle, J. Maier, K. \u015awierczek
\n\u201eDefect chemistry and proton uptake of La2-xSrxNiO4\u00b1\u03b4 and La2-xBaxNiO4\u00b1\u03b4 Ruddlesden-Popper phases\u201d
\nJournal of Solid State Chemistry 306 (2022) 122731
\nIF 3.3<\/p>\n

11. K. Cichy, M. Zaj\u0105c, K. \u015awierczek
\n\u201eEvaluation of applicability of Nd- and Sm-substituted Y1-xRxMnO3+\u03b4 in temperature swing absorption for energy-related technologies\u201d
\nEnergy 239(E) (2022) 122429
\nIF 9.0<\/p>\n

12. P. Summa, B. Samojeden, M. Motak, D. Wierzbicki, I. Alxneit, K. \u015awierczek, P. Da Costa
\n\u201eInvestigation of Cu promotion effect on hydrotalcite-based nickel catalyst for CO2 methanation\u201d
\nCatalysis Today 384-386 (2022) 133-145
\nIF 5.3<\/p>\n<\/div><\/div><\/div>

<\/i><\/i><\/span>2021<\/span><\/a><\/h4><\/div>
\n

1. J. D\u0105browa, K. Zieli\u0144ska, A. St\u0119pie\u0144, M. Zajusz, M. Nowakowska, M. Mo\u017adzierz, K. Berent, M. Szymczak, K. \u015awierczek
\n\u201eFormation of solid solutions and physicochemical properties of the high-entropy Ln1-xSrx(Co,Cr,Fe,Mn,Ni)O3-\u03b4 (Ln = La, Pr, Nd, Sm or Gd) perovskites\u201d
\nMaterials 14(18) (2021) 5264
\nIF 3.748<\/p>\n

2. K. Cichy, K. \u015awierczek
\n\u201eInfluence of doping on the transport properties of Y1-xLnxMnO3+\u03b4 (Ln: Pr, Nd)\u201d
\nCrystals 11(5) (2021) 510
\nIF 2.670<\/p>\n

3. M. Mo\u017adzierz, J. D\u0105browa, A. St\u0119pie\u0144, M. Zajusz, M. Stygar, W. Zaj\u0105c, M. Danielewski, K. \u015awierczek
\n\u201eMixed ionic-electronic transport in the high-entropy (Co,Cu,Ni,Mg,Zn)1-xLixO oxides\u201d
\nActa Materialia 208 (2021) 116735
\nIF 9.209<\/p>\n

4. L. Zhao, H. Zhao, J. Wang, Y. Zhang, Z. Li, Z. Du, K. \u015awierczek, Y. Hou
\n\u201eMicro\/nano Na3V2(PO4)3\/N-doped carbon composites with a hierarchical porous structure for high-rate pouch-type sodium-ion full-cell performance\u201d
\nACS Applied Materials & Interfaces 13(7) (2021) 8445-8454
\nIF 10.383<\/p>\n

5. A. Niemczyk, A. St\u0119pie\u0144, K. Cichy, J. D\u0105browa, Z. Zhang, B. G\u0119dziorowski, K. Zheng, H. Zhao, K. \u015awierczek
\n\u201eModification of Ruddlesden-Popper-type Nd2-xNi0.75Cu0.2M0.05O4\u00b1\u03b4 by the Nd-site cationic deficiency and doping with Sc, Ga or In: crystal structure, oxygen content, transport properties and oxygen permeability\u201d
\nJournal of Solid State Chemistry 296 (2021) 121982
\nIF 3.656<\/p>\n

6. J. D\u0105browa, J. Cie\u015blak, M. Zajusz, M. Mo\u017adzierz, K. Berent, A. Miku\u0142a, A. St\u0119pie\u0144, K. \u015awierczek
\n\u201eStructure and transport properties of the novel (Dy,Er,Gd,Ho,Y)3Fe5O12 and (Dy,Gd,Ho,Sm,Y)3Fe5O12 high entropy garnets\u201d
\nJournal of the European Ceramic Society 41(6) (2021) 3844-3849
\nIF 6.364<\/p>\n

7. K. Cichy, K. \u015awierczek, K. Jarosz, A. Klimkowicz, M. Marzec, M. Gajewska, B. Dabrowski
\n\u201eTowards efficient oxygen separation from air: Influence of the mean rare-earth radius on thermodynamics and kinetics of reactivity with oxygen in hexagonal Y1-xRxMnO3+\u03b4\u201d
\nActa Materialia 205 (2021) 116544
\nIF 9.209<\/p>\n

8. W. Skubida, K. Zheng, A. St\u0119pie\u0144, K. \u015awierczek, A. Klimkowicz
\n\u201eSrCe0.9In0.1O3-\u03b4-based reversible symmetrical Protonic Ceramic Cell\u201d
\nMaterials Research Bulletin 135 (2021) 111154
\nIF 5.600<\/p>\n

9. T. Polczyk, W. Zaj\u0105c, M. Zi\u0105bka, K. \u015awierczek
\n\u201eMitigation of grain boundary resistance in La2\/3-xLi3xTiO3 perovskite as an electrolyte for solid state Li-ion batteries\u201d
\nJournal of Materials Science 56(3) (2021) 2435-2450
\nIF 4.682<\/p>\n

10. Y. Zhang, B. Zhang, H. Zhao, K. \u015awierczek, Z. Du, Y. Li, L. Xu, H. Li
\n\u201eElectrochemical performance and structural durability of Mg-doped SmBaMn2O5+\u03b4 layered perovskite electrode for symmetrical solid oxide fuel cell\u201d
\nCatalysis Today 364 (2021) 80-88
\nIF 6.562<\/p>\n<\/div><\/div><\/div>

<\/i><\/i><\/span>2020<\/span><\/a><\/h4><\/div>
1. J. D\u0105browa, A. Olszewska, A. Falkenstein, C. Schwab, M. Szymczak, M. Zajusz, M. Mo\u017adzierz, A. Miku\u0142a, K. Zieli\u0144ska, K. Berent, T. Czeppe, M. Martin, K. \u015awierczek
\n\u201eInnovative approach to design SOFC air electrode materials: high entropy La1-xSrx(Co,Cr,Fe,Mn,Ni)O3-\u03b4 (x = 0, 0.1, 0.2, 0.3) perovskites synthesized by the sol-gel method\u201d
\nJournal of Materials Chemistry A 8(46) (2020) 24455-24468
\nIF 12.732<\/p>\n

2 A. Klimkowicz, T. Hashizume, K. Cichy, Y. Tamura, K. \u015awierczek, A. Takasaki, T. Motohashi, B. Dabrowski
\n\u201eOxygen separation from air by the combined temperature- and pressure-swing processes using oxygen storage materials Y1-x(Tb\/Ce)xMnO3+\u03b4\u201d
\nJournal of Materials Science 55(33) (2020) 15653-15666
\nIF 4.220<\/p>\n

3. A. Niemczyk, K. Zheng, K. Cichy, K. Berent, K. K\u00fcsterd, U. Starke, B. Poudel, B. Dabrowski, K. \u015awierczek
\n\u201eHigh Cu content LaNi1-xCuxO3-\u03b4 perovskites as candidate air electrode materials for reversible Solid Oxide Cells\u201d
\nInternational Journal of Hydrogen Energy 45(53) (2020) 29449-29464
\nIF 5.816<\/p>\n

4. J. D\u0105browa, M. Szymczak, M. Zajusz, A. Miku\u0142a, M. Mo\u017adzierz, K. Berent, M. Wytrwal-Sarna, A. Bernasik, M. Stygar, K. \u015awierczek
\n\u201eStabilizing fluorite structure in ceria-based high-entropy oxides: Influence of Mo addition on crystal structure and transport properties\u201d
\nJournal of the European Ceramic Society 40(15) (2020) 5870-5881
\nIF 5.302<\/p>\n

5. Z. Du, K. Li, H. Zhao, X. Dong, Y. Zhang, K. \u015awierczek
\n\u201eSmBaCo2O5+\u03b4 double perovskite with epitaxially grown Sm0.2Ce0.8O1.9 nanoparticles as the promising cathode for solid oxide fuel cells\u201d
\nJournal of Materials Chemistry A 8(28) (2020) 14162-14170
\nIF 12.732<\/p>\n

6. A. Mielewczyk-Gry\u0144, S. Wachowski, A. Witkowska, K. Dzierzgowski, W. Skubida, K. \u015awierczek, A. Regoutz, D.J. Payne, S. Hull, H. Zhang, I. Abrahams, M. Gazda
\n\u201eAntimony substituted lanthanum orthoniobate proton conductor \u2013 Structure and electronic properties\u201d
\nJournal of the American Ceramic Society 103(11) (2020) 6575-6585
\nIF 3.784<\/p>\n

7. K.A. Bogdanowicz, B. Jew\u0142oszewicz, A. Iwan, K. Dysz, W. Przyby\u0142, A. Januszko, M. Marzec, K. Cichy, K. \u015awierczek, L. Kavan, M. Zukalov\u00e1, V. Nadazdy, R. Subair, E. Majkova, M. Mi\u010du\u0161\u00edk, M. Omastov\u00e1, M.D. \u00d6zeren, K. Kamar\u00e1s, D.Y. Heo, S.Y. Kim
\n\u201eSelected electrochemical properties of 4,4′-((1E,1’E)-((1,2,4-thiadiazole-3,5-diyl)bis(azaneylylidene))bis(methaneylylidene))bis(N,N-di-p-tolylaniline) towards perovskite solar cells with 14.4% efficiency\u201d
\nMaterials 13(11) (2020) 2440
\nIF 3.623<\/p>\n

8. B. G\u0119dziorowski, A. Niemczyk, A. Olszewska, K. Cichy, K. \u015awierczek
\n\u201eInsight into physicochemical properties of Nd2CuO4\u00b1\u03b4 and the A-site cation deficient Nd1.9CuO4\u00b1\u03b4 layered oxides\u201d
\nFunctional Materials Letters 13(6) (2020) 2051034
\nIF 2.170<\/p>\n

9. B. G\u0119dziorowski, K. Cichy, A. Niemczyk, A. Olszewska, Z. Zhang, S. Kope\u0107, K. Zheng, M. Marzec, M. Gajewska. Z. Du, H. Zhao, K. \u015awierczek
\n\u201eRuddlesden-Popper-type Nd2-xNi1-yCuyO4\u00b1\u03b4 layered oxides as candidate materials for MIEC-type ceramic membranes\u201d
\nJournal of the European Ceramic Society 40(12) (2020) 4056-4066
\nIF 5.302<\/p>\n

10. A. Olszewska, K. \u015awierczek, A. Niemczyk
\n\u201ePeculiar properties of electrochemically oxidized SmBaCo2-xMnxO5+\u03b4 (x = 0; 0.5 and 1) A-site ordered perovskites\u201d
\nCrystals 10(3) (2020) 205
\nIF 2.589<\/p>\n

11. W. Skubida, K. Zheng, K. \u015awierczek, M. Michna, \u0141. Kondracki
\n\u201eIndium doping in SrCeO3 proton-conducting perovskites\u201d
\nJournal of Solid State Chemistry 284 (2020) 121210
\nIF 3.498<\/p>\n

12. G. Zhang, Q. Xu, Y. Liu, Q. Qin, J. Zhang, K. Qi, J. Chen, Z. Wang, K. Zheng, K. S\u0301wierczek, W. Zheng
\n\u201eRed phosphorus as self-template to hierarchical nanoporous nickel phosphides toward enhanced electrocatalytic activity for oxygen evolution reaction\u201d
\nElectrochimica Acta 332 (2020) 135500
\nIF 6.901<\/p>\n

13. J. Cebulski, D. Pasek, M. Bik, K. \u015awierczek, P. Jele\u0144, K. Mroczka, J. D\u0105browa, M. Zajusz, J. Wyrwa, M. Sitarz
\n\u201eIn-situ XRD investigations of FeAl intermetallic phase-based alloy oxidation\u201d
\nCorrosion Science 164 (2020) 108344
\nIF 7.205<\/p>\n

14. M. Stygar, J. D\u0105browa, M. Mo\u017adzierz, M. Zajusz, W. Skubida, K. Mroczka, K. Berent, K. \u015awierczek, M. Danielewski
\n\u201eFormation and properties of high entropy oxides in Co-Cr-Fe-Mg-Mn-Ni-O system: novel (Cr,Fe,Mg,Mn,Ni)3O4 and (Co,Cr,Fe,Mg,Mn)3O4 high entropy spinels\u201d
\nJournal of the European Ceramic Society 40(4) (2020) 1644-1650
\nIF 5.302<\/p>\n

15. Z. Grzesik, G. Smo\u0142a, M. Miszczak, M. Stygar, J. D\u0105browa, M. Zajusz, K. \u015awierczek, M. Danielewski
\n\u201eDefect structure and transport properties of (Co,Cr,Fe,Mn,Ni)3O4 spinel-structured high entropy oxide\u201d
\nJournal of the European Ceramic Society 40(3) (2020) 835-839
\nIF 5.302<\/div><\/div><\/div>

<\/i><\/i><\/span>2019<\/span><\/a><\/h4><\/div>
\n

1. A. Niemczyk, Z. Du, A. Olszewska, M. Marzec, M. Gajewska, K. \u015awierczek, H. Zhao, B. Poudel, B. Dabrowski
\n\u201eEffective oxygen reduction on A-site substituted LaCuO3-\u03b4: Toward air electrodes for SOFCs based on perovskite-type copper oxides\u201d
\nJournal of Materials Chemistry A 7(48) (2019) 27403-27416
\nIF 11.301<\/p>\n

2. A. Olszewska, Y. Zhang, Z. Du, M. Marzec, K. \u015awierczek, H. Zhao, B. Dabrowski
\n\u201eMn-rich SmBaCo0.5Mn1.5O5+\u03b4 double perovskite cathode material for SOFCs\u201d
\nInternational Journal of Hydrogen Energy 44(50) (2019) 27587-27599
\nIF 4.939<\/p>\n

3. Y. Zhang, H. Zhao, Z. Du, K. \u015awierczek, Y. Li
\n\u201eHigh-performance SmBaMn2O5+\u03b4 electrode for symmetrical solid oxide fuel cell\u201d
\nChemistry of Materials 31(10) (2019) 3784-3793
\nIF 9.567<\/p>\n

4. Z. Liu, K. Li, H. Zhao, K. \u015awierczek
\n\u201eHigh-performance oxygen permeation membranes: cobalt-free Ba0.975La0.025Fe1-xCuxO3-\u03b4 ceramics\u201d
\nJournal of Materiomics 5(2) (2019) 264-272
\nIF 5.797<\/p>\n

5. S. Zhang, H. Zhao, J. Guo, Z. Du, J. Wang, K. \u015awierczek
\n\u201eCharacterization of Sr-doped lithium lanthanum titanate with improved transport properties\u201d
\nSolid State Ionics 336 (2019) 39-46
\nIF 3.107<\/p>\n

6. L. Zhao, H. Zhao, Z. Du, J. Wang, X. Long, Z. Li, K. \u015awierczek
\n\u201eDelicate lattice modulation enables superior Na storage performance of Na3V2(PO4)3 as both an anode and cathode material for sodium-ion batteries: understanding the role of calcium substitution for vanadium\u201d
\nJournal of Materials Chemistry A 7(16) (2019) 9807-9814
\nIF 11.301<\/p>\n

7. K. Kornaus, R. Lach, M. Szumera, K. \u015awierczek, A. Gubernat
\n\u201eSynthesis of aluminium titanate by means of isostructural heterogeneous nucleation\u201d
\nJournal of the European Ceramic Society 39(7) (2019) 2535-2544
\nIF 4.495<\/p>\n

8. A. Klimkowicz, K. Cichy, O. Chmaissem, B. Dabrowski, B. Poudel, K. \u015awierczek, K.M. Taddei, A. Takasaki
\n\u201eReversible oxygen intercalation in hexagonal Y0.7Tb0.3MnO3+\u03b4: Toward the oxygen production by temperature-swing absorption in air\u201d
\nJournal of Materials Chemistry A 7(6) (2019) 2608-2618
\nIF 11.301<\/p>\n

9. A. Olszewska, K. \u015awierczek, W. Skubida, Z. Du, H. Zhao, B. Dabrowski
\n\u201eVersatile application of redox processes for REBaCoMnO5+\u03b4 (RE: La, Pr, Nd, Sm, Gd and Y) oxides\u201d
\nJournal of Physical Chemistry C 123(1) (2019) 48-61
\nIF 4.189<\/p>\n

10. T. Yang, H. Zhao, M. Fang, K. \u015awierczek, J. Wang, Z. Du
\n\u201eA new family of Cu-doped lanthanum silicate apatites as electrolyte materials for SOFCs: synthesis, structural and electrical properties\u201d
\nJournal of the European Ceramic Society 39(2-3) (2019) 424-431
\nIF 4.495<\/p>\n

11. M. Odziomek, F. Chaput, F. Lerouge, A. Rutkowska, K. \u015awierczek, D. Carlier, M. Sitarz, S. Parola
\n\u201eImpact of the synthesis parameters on the microstructure of nano-structured LTO prepared by glycothermal routes and 7Li NMR structural investigations\u201d
\nJournal of Sol-Gel Science and Technology 89(1) (2019) 225-233
\nIF 2.008<\/p>\n<\/div><\/div><\/div>

<\/i><\/i><\/span>2018<\/span><\/a><\/h4><\/div>
\n

1. A. Milewska, K. \u015awierczek, W. Zaj\u0105c, J. Molenda
\n\u201eOvercoming transport and electrochemical limitations in the high-voltage
\nNa0.67Ni0.33Mn0.67-yTiyO2 (0 \u2264 y \u2264 0.33) cathode materials by Ti-doping\u201d
\nJournal of Power Sources 404 (2018) 39-46
\nIF 7.467<\/p>\n

2. Z. Du, Z. Zhang, A. Niemczyk, A. Olszewska, N. Chen, K. \u015awierczek, H. Zhao
\n\u201eUnveiling the effects of A-site substitutions on the oxygen ions migration in A2-xA\u2019xNiO4+\u03b4 by first principles calculations\u201d
\nPhysical Chemistry Chemical Physics 20(33) (2018) 21685-21692
\nIF 3.567<\/p>\n

3. A. Niemczyk, A. Olszewska, Z. Du, Z. Zhang, K. \u015awierczek, H. Zhao
\n\u201eAssessment of layered La2-x(Sr,Ba)xCuO4-\u03b4 oxides as potential cathode materials for SOFCs\u201d
\nInternational Journal of Hydrogen Energy 43(32) (2018) 15492-15504
\nIF 4.084<\/p>\n

4. L. Zhao, H. Zhao, Z. Du, N. Chen, X. Chang, Z. Zhang, F. Gao, A. Trenczek-Zaj\u0105c,
\nK. \u015awierczek
\n\u201eComputational and experimental understanding of Al-doped Na3V2-xAlx(PO4)3 cathode material for sodium ion batteries: electronic structure, ion dynamics and electrochemical properties\u201d
\nElectrochimica Acta 282 (2018) 510-519
\nIF 5.383<\/p>\n

5. A. Olszewska, Z. Du, K. \u015awierczek, H. Zhao, B. Dabrowski
\n\u201eNovel ReBaCo1.5Mn0.5O5+\u03b4 (Re = La, Pr, Nd, Sm, Gd and Y) perovskite oxide: influence of manganese doping on crystal structure, oxygen nonstoichiometry, thermal expansion, transport properties, and application as cathode materials in Solid Oxide Fuel Cells\u201d
\nJournal of Materials Chemistry A 6(27) (2018) 13271-13285
\nIF 10.733<\/p>\n

6. K. Zheng, K. \u015awierczek
\n\u201ePossibility of determination of transport coefficients D and K from relaxation experiments for sphere-shaped powder samples\u201d
\nSolid State Ionics 323 (2018) 157-165
\nIF 2.886<\/p>\n

7. W. Skubida, A. Niemczyk, K. Zheng, X. Liu, K. \u015awierczek
\n\u201eCrystal structure, hydration and two-fold\/single-fold diffusion kinetics in proton-conducting Ba0.9La0.1Zr0.25Sn0.25In0.5O3-a oxide\u201d
\nCrystals 8(3) (2018) 136
\nIF 2.061<\/p>\n

8. K. Cichy, W. Skubida, K. \u015awierczek
\n\u201eStructural transformations, water incorporation and transport properties of tin-substituted barium indate\u201d
\nJournal of Solid State Chemistry 262 (2018) 58-67
\nIF 2.291<\/p>\n

9. Z. Du, H. Zhao, S. Li, Y. Zhang, X. Chang, Q. Xia, N. Chen, L. Gu, K. \u015awierczek, Y. Li, T. Yang, K. An
\n\u201eExceptionally high performance anode material based on lattice structure decorated double perovskite Sr2FeMo2\/3Mg1\/3O6-\u03b4 for Solid Oxide Fuel Cells\u201d
\nAdvanced Energy Materials 8(18) (2018) 1800062
\nIF 24.884<\/p>\n

10. Z. Zhang, Z. Du, A. Niemczyk, K. Li, H. Zhao, K. \u015awierczek
\n\u201eA-site nonstoichiometry and B-site doping with selected M3+ cations in
\nLa2-xCu1-y-zNiyMzO4-\u03b4 layered oxides\u201d
\nSolid State Ionics 317 (2018) 26-31
\nIF 2.886<\/p>\n

11. A. Klimkowicz, K. \u015awierczek, S. Kobayashi, A. Takasaki, W. Allahyani, B. Dabrowski
\n\u201eImprovement of oxygen storage properties of hexagonal YMnO3+\u03b4 by microstructural modifications\u201d
\nJournal of Solid State Chemistry 258 (2018) 471-476
\nIF 2.291<\/p>\n

12. Z. Zhang, H. Zhao, Y. Teng, X. Chang, Q. Xia, Z. Li, J. Fang, Z. Du, K. \u015awierczek
\n\u201eCarbon-sheathed MoS2 nanothorns epitaxially grown on CNTs: electrochemical application for highly-stable and ultrafast lithium storage\u201d
\nAdvanced Energy Materials 8(7) (2018) 1700174
\nIF 24.884<\/p>\n

13. G. Grabowski, R. Lach, Z. P\u0119dzich, K. \u015awierczek, A. Wojteczko
\n\u201eAnisotropy of thermal expansion of 3Y-TZP, \u03b1-Al2O3 and composites from 3Y-TZP\/\u03b1-Al2O3 system\u201d
\nArchives of Civil and Mechanical Engineering 18(1) (2018) 188-197
\nIF 2.846<\/p>\n<\/div><\/div><\/div>

<\/i><\/i><\/span>2017<\/span><\/a><\/h4><\/div>
1. Z. Du, C. Yan, H. Zhao, Y. Zhang, C. Yang, S. Yi, Y. Lu, K. \u015awierczek
\n\u201eEffective Ca-doping in Y1-xCaxBaCo2O5+\u03b4 cathode materials for Intermediate Temperature Solid Oxide Fuel Cells\u201d
\nJournal of Materials Chemistry A 5(48) (2017) 25641-25651
\nIF 9.931<\/p>\n

2. Z. Zhang, H. Zhao, Z. Du, X. Chang, L. Zhao, X. Du, Z. Li, Y. Teng, J. Fang,
\nK. \u015awierczek
\n\u201e(101) plane-oriented SnS2 nanoplates with carbon coating: a high-rate and cycle-stable anode material for lithium ion batteries\u201d
\nACS Applied Materials & Interfaces 9(41) (2017) 35880-35887
\nIF 8.097<\/p>\n

3. \u0141. Kondracki, A. Kulka, K. \u015awierczek, M. Zi\u0105bka, J. Molenda
\n\u201eOperando X-ray diffraction studies as a tool for determination of transport parameters of mobile ions in electrode materials\u201d
\nJournal of Power Sources 369 (2017) 1-5
\nIF 6.945<\/p>\n

4. J. Suchanicz, K. \u015awierczek, D. Sitko, P. Czaja, P. Marchet, H. Czternastek, D. Majda
\n\u201eThe effects of PbZn1\/3Nb2\/3O3-doping on structural, thermal, optical, dielectric and ferroelectric properties of BaTiO3 ceramics\u201d
\nJournal of Applied Physics 122(12) (2017) 124105-1-7
\nIF 2.176<\/p>\n

5. K. \u015awierczek, A. Klimkowicz, K. Nishihara, S. Kobayashi, A. Takasaki, M. Alanizy,
\nS. Kolesnik, B. Dabrowski, S. Seong, J. Kang
\n\u201eOxygen storage properties of hexagonal HoMnO3+\u03b4\u201d
\nPhysical Chemistry Chemical Physics 19(29) (2017) 19243-19251
\nIF 3.906<\/p>\n

6. K. \u015awierczek, W. Skubida, A. Niemczyk, A. Olszewska, K. Zheng
\n\u201eStructure and transport properties of proton-conducting BaSn0.5In0.5O2.75 and A-site substituted Ba0.9Ln0.1Sn0.5In0.5O2.8 (Ln = La, Gd) oxides\u201d
\nSolid State Ionics 307 (2017) 44-50
\nIF 2.751<\/p>\n

7. Y. Teng, H. Zhao, Z. Zhang, L. Zhao, Y. Zhang, Z. Li, Q. Xia, Z. Du, K. \u015awierczek
\n\u201eMoS2 nanosheets vertically grown on reduced graphene oxide via oxygen bonds with carbon coating as ultrafast sodium ion batteries anodes\u201d
\nCarbon 119 (2017) 91-100
\nIF 7.082<\/p>\n

8. J. Suchanicz, K. Konieczny, K. \u015awierczek, M. Lipi\u0144ski, M. Karpierz, D. Sitko,
\nH. Czternastek, K. Kluczewska
\n\u201eElectrical transport in low-lead (1-x)BaTiO3-xPbMg1\/3Nb2\/3O3 ceramics\u201d
\nJournal of Advanced Ceramics 6(3) (2017) 207-219
\nIF 1.605<\/p>\n

9. M. Odziomek, F. Chaput, A. Drobniak, K. \u015awierczek, D. Olszewska, M. Sitarz,
\nF. Lerouge, S. Parola
\n\u201eHierarchically-structured lithium titanate for ultrafast charging in long-life high capacity batteries\u201d
\nNature Communications 8 (2017) 15636
\nIF 12.353<\/p>\n

10. Y. Lu, H. Zhao, K. Li, X. Du, Y. Ma, X. Chang, N. Chen, K. Zheng, K. \u015awierczek
\n\u201eEffective calcium doping at the B-site of BaFeO3-\u03b4 perovskite: towards low-cost and high-performance oxygen permeation membranes\u201d
\nJournal of Materials Chemistry A 5(17) (2017) 7999-8009
\nIF 9.931<\/p>\n

11. J. Molenda, J. Kupecki, R. Baron, M. Blesznowski, G. Brus, T. Brylewski, M. Bu\u0107ko,
\nJ. Chmielowiec, K. \u0106wieka, M. Gazda, A. Gil, P. Jasi\u0144ski, Z. Jaworski, J. Karczewski,
\nM. Kawalec, R. Kluczowski, M. Krauz, F. Krok, B. \u0141ukasik, M. Ma\u0142ys, A. Mazur,
\nA. Mielewczyk-Gry\u0144, J. Milewski, S. Molin, G. Mordarski, M. Mosia\u0142ek, K. Motylinski, E.N. Naumovich, P. Nowak, G. Pa\u015bciak, P. Pianko-Oprych, D. Pomykalska, M. R\u0119kas,
\nA. \u015aci\u0105\u017cko, K. \u015awierczek, J. Szmyd, S. Wachowski, T. Wejrzanowski, W. Wr\u00f3bel,
\nK. Zagorski, W. Zaj\u0105c, A. \u017burawska
\n\u201eStatus report on high temperature fuel cells in Poland – Recent advances and achievements\u201d
\nInternational Journal of Hydrogen Energy 42(7) (2017) 4366-4403
\nIF 4.229<\/p>\n

12. A. Klimkowicz, K. \u015awierczek, K. Zheng, D. Wallacher, A. Takasaki
\n\u201eOxygen release from BaLnMn2O6 (Ln: Pr, Nd, Y) under reducing conditions as studied by neutron diffraction\u201d
\nJournal of Materials Science 52(11) (2017) 6476-6485
\nIF 2.993<\/p>\n

13. X. Du, H. Zhao, Y. Lu, Z. Zhang, A. Kulka, K. \u015awierczek
\n\u201eSynthesis of core-shell-like ZnS\/C nanocomposite as improved anode material for lithium ion batteries\u201d
\nElectrochimica Acta 228 (2017) 100-106
\nIF 5.116<\/p>\n

14. X. Du, H. Zhao, Z. Zhang, Y. Lu, C. Gao, Z. Li, Y. Teng, L. Zhao, K. \u015awierczek
\n\u201eCore-shell structured ZnS-C nanoparticles with enhanced electrochemical properties for high-performance lithium-ion battery anodes\u201d
\nElectrochimica Acta 225 (2017) 129-136
\nIF 5.116<\/p>\n

15. A. Trenczek-Zaj\u0105c, J. Bana\u015b, K. \u015awierczek, K. Zazakowny, M. Radecka
\n\u201ePhotosensitization of TiO2 P25 with CdS nanoparticles for photocatalytic applications\u201d
\nArchives of Metallurgy and Materials 62(2) (2017) 841-849
\nIF 0.625<\/div><\/div><\/div>

<\/i><\/i><\/span>2016<\/span><\/a><\/h4><\/div>
1. A. Klimkowicz, K. \u015awierczek, T. Yamazaki, A. Takasaki
\n\u201eEnhancement of the oxygen storage properties of BaPrMn2O5+\u03b4 and BaSmMn2O5+\u03b4 oxides by a high-energy milling\u201d
\nSolid State Ionics 298 (2016) 66-72
\nIF 2.354<\/p>\n

2. Y. Teng, H. Zhao, Z. Zhang, Z. Li, Q. Xia, Y. Zhang, L. Zhao, X. Du, Z. Du, P. Lv,
\nK. \u015awierczek
\n\u201eMoS2 nanosheets vertically grown on graphene sheets for lithium ion battery anodes\u201d
\nACS Nano 10(9) (2016) 8526-8535
\nIF 13.942<\/p>\n

3. Z. Du, H. Zhao, S. Yi, Q. Xia, Y. Gong, Y. Zhang, X. Cheng, Y. Li, L. Gu, K. \u015awierczek
\n\u201eHigh performance anode material Sr2FeMo0.65Ni0.35O6-\u03b4 with in situ exsolved nanoparticle catalyst\u201d
\nACS Nano 10(9) (2016) 8660-8669
\nIF 13.942<\/p>\n

4. K. Zheng, K. \u015awierczek
\n\u201eEvaluation of La2Ni0.5Cu0.5O4+\u03b4 and Pr2Ni0.5Cu0.5O4+\u03b4 Ruddlesden-Popper-type layered oxides as cathode materials for Solid Oxide Fuel Cells\u201d
\nMaterials Research Bulletin 84 (2016) 259-266
\nIF 2.446<\/p>\n

5. Z. Zhang, H. Zhao, Q. Xia, J. Allen, Z. Zeng, C. Gao, Z. Li, X. Du, K. \u015awierczek
\n\u201eHigh performance Ni3S2\/Ni film with three dimensional porous architecture as binder-free anode for lithium ion batteries\u201d
\nElectrochimica Acta 211 (2016) 761-767
\nIF 4.798<\/p>\n

6. Y. Lu, H. Zhao, X. Chang, X. Du, K. Li, Y. Ma, S. Yi, Z. Du, K. Zheng, K. \u015awierczek
\n\u201eNovel cobalt-free BaFe1-xGdxO3-\u03b4 perovskite membranes for oxygen separation\u201d
\nJournal of Materials Chemistry A 4(27) (2016) 10454-10466
\nIF 8.867<\/p>\n

7. W. Skubida, K. \u015awierczek
\n\u201eStructural properties and presence of protons in Ba0.9Gd0.1Zr1-x-ySnxInyO3-(y-0.1)\/2 perovskites\u201d
\nFunctional Materials Letters 9(4) (2016) 1641005
\nIF 1.234<\/p>\n

8. K. Zheng, K. \u015awierczek
\n\u201eA- and B-site doping effect on physicochemical properties of Sr2-xBaxMMoO6
\n(M = Mg, Mn, Fe) double perovskites – candidate anode materials for SOFCs\u201d
\nFunctional Materials Letters 9(4) (2016) 1641002
\nIF 1.234<\/p>\n

9. M.A. Macias, M.V. Sandoval, N.G. Martinez, S. V\u00e1zquez-Cuadriello, L. Suescun,
\nP. Roussel, K. \u015awierczek, G.H. Gauthier
\n\u201eSynthesis and preliminary study of La4BaCu5O13+\u03b4 and La6.4Sr1.6Cu8O20\u00b1\u03b4 ordered perovskites as SOFC\/PCFC electrode materials\u201d
\nSolid State Ionics 288 (2016) 68-75
\nIF 2.354<\/p>\n

10. A. Klimkowicz, K. \u015awierczek, T. Rz\u0105sa, A. Takasaki, B. Dabrowski
\n\u201eOxygen storage properties and catalytic activity of layer-ordered perovskites
\nBaY1-xGdxMn2O5+\u03b4\u201d
\nSolid State Ionics 288 (2016) 43-47
\nIF 2.354<\/p>\n

11. A. Kulka, K. \u015awierczek, K. Walczak, A. Braun, J. Molenda
\n\u201eCorrelation between transport properties and lithium extraction\/insertion mechanism
\nin Fe-site substituted phospholivine\u201d
\nSolid State Ionics 288 (2016) 184-192
\nIF 2.354<\/p>\n

12. O.L. Pineda, Z.L. Moreno, P. Roussel, K. \u015awierczek, G.H. Gauthier
\n\u201eSynthesis and preliminary study of the double perovskite NdBaMn2O5+\u03b4 as symmetric SOFC electrode material\u201d
\nSolid State Ionics 288 (2016) 61-67
\nIF 2.354<\/p>\n

13. K. Zheng, K. \u015awierczek
\n\u201eEvaluation of W-containing Sr1-xBaxFe0.75W0.25O3-\u03b4 (x = 0, 0.5, 1) anode materials for Solid Oxide Fuel Cells\u201d
\nSolid State Ionics 288 (2016) 124-129
\nIF 2.354<\/p>\n

14. Q. Xia, H. Zhao, Z. Du, Z. Zhang, S. Li, C. Gao, K. \u015awierczek
\n\u201eDesign and synthesis of 3-D hierarchical molybdenum dioxide\/nickel\/carbon structured composite with superior cycling performance for lithium ion batteries\u201d
\nJournal of Materials Chemistry A 4(2) (2016) 605-611
\nIF 8.867<\/div><\/div><\/div>

<\/i><\/i><\/span>2015<\/span><\/a><\/h4><\/div>
1. Q. Xia, H. Zhao, Z. Du, Z. Zeng, C. Gao, Z. Zhang, X. Du, A. Kulka, K. \u015awierczek
\n\u201eFacile synthesis of MoO3\/carbon nanobelts as high-performance anode material for lithium ion batteries\u201d
\nElectrochimica Acta 180 (2015) 947-956
\nIF 4.803<\/p>\n

2. X. Liu, Y. Dai, J. Xie, H. Zhao, P. Lv, K. Wang, K. \u015awierczek
\n\u201eImprovement of silicon-based electrode for Li-ion batteries by formation of Si-TiB2-C nanocomposites\u201d
\nSolid State Ionics 281 (2015) 60-67
\nIF 2.380<\/p>\n

3. D. Baster, W. Maziarz, K. \u015awierczek, A. Stok\u0142osa, J. Molenda
\n\u201eStructural and electrochemical properties of Na0.72CoO2 as cathode material for sodium-ion batteries\u201d
\nJournal of Solid State Electrochemistry 19(12) (2015) 3605-3612
\nIF 2.327<\/p>\n

4. K. Zheng, K. \u015awierczek, J.M. Polfus, M.F. Sunding, M. Pishahang, T. Norby
\n\u201eCarbon deposition and sulfur poisoning in SrFe0.75Mo0.25O3-\u03b4 and SrFe0.5Mn0.25Mo0.25O3-\u03b4 electrode materials for symmetrical SOFCs\u201d
\nJournal of the Electrochemical Society 162(9) (2015) F1078-F1087
\nIF 3.014<\/p>\n

5. K. Zheng, A. Klimkowicz, K. \u015awierczek, A. Malik, Y. Ariga, T. Tominaga, A. Takasaki
\n\u201eChemical diffusion and surface exchange in selected Ln-Ba-Sr-Co-Fe perovskite-type oxides\u201d
\nJournal of Alloys and Compounds 645(S1) (2015) S357-S360
\nIF 3.014<\/p>\n

6. T. Tominaga, A. Takasaki, T. Shibato, K. \u015awierczek
\n\u201eHREM observation and high-pressure composition isotherm measurement of Ti45Zr38Ni17 quasicrystal powders synthesized by mechanical alloying\u201d
\nJournal of Alloys and Compounds 645(S1) (2015) S292-S294
\nIF 3.014<\/p>\n

7. Y. Ariga, A. Takasaki, T. Kimijima, K. \u015awierczek
\n\u201eElectrochemical properties of Ti49Zr26Ni25-xPdx (x = 0-6) quasicrystal electrodes produced by mechanical alloying\u201d
\nJournal of Alloys and Compounds 645(S1) (2015) S152-S154
\nIF 3.014<\/p>\n

8. A. Klimkowicz, A. Takasaki, \u0141. Gondek, H. Figiel, K. \u015awierczek
\n\u201eHydrogen desorption properties of magnesium hydride catalyzed multiply with carbon and silicon\u201d
\nJournal of Alloys and Compounds 645(S1) (2015) S80-S83
\nIF 3.014<\/p>\n

9. F. Yang, H. Zhao, J. Yang, M. Fang, Y. Lu, Z. Du, K. \u015awierczek, K. Zheng
\n\u201eStructure and oxygen permeability of BaCo0.7Fe0.3-xInxO3-\u03b4 ceramic membranes\u201d
\nJournal of Membrane Science 492 (2015) 559-567
\nIF 5.557<\/p>\n

10. K. \u015awierczek, W. Zaj\u0105c, A. Klimkowicz, K. Zheng, N. Malikova, B. Dabrowski
\n\u201eCrystal structure and proton conductivity in highly oxygen-deficient
\nBa1-xLax(In,Zr,Sn)O3-\u03b4 perovskites\u201d
\nSolid State Ionics 275 (2015) 58-61
\nIF 2.380<\/p>\n

11. Y. Lu, H. Zhao, X. Cheng, Y. Jia, X. Du, M. Fang, Z. Du, K. Zheng, K. \u015awierczek
\n\u201eInvestigation of In-doped BaFeO3-\u03b4 perovskite-type oxygen permeable membranes\u201d
\nJournal of Materials Chemistry A 3(11) (2015) 6202-6214
\nIF 8.262<\/p>\n

12. A. Klimkowicz, K. \u015awierczek, A. Takasaki, J. Molenda, B. Dabrowski
\n\u201eCrystal structure and oxygen storage properties of BaLnMn2O5+\u03b4 (Ln: Pr, Nd, Sm, Gd, Dy, Er and Y) oxides\u201d
\nMaterials Research Bulletin 65 (2015) 116-122
\nIF 2.435<\/p>\n

13. J. Suchanicz, K. \u015awierczek, E. Nogas-\u0106wikiel, K. Konieczny, D. Sitko
\n\u201ePbMg1\/3Nb2\/3O3 -doping effects on structural, thermal, Raman, dielectric and ferroelectric properties of BaTiO3 ceramics\u201d
\nJournal of the European Ceramic Society 35(6) (2015) 1777-1783
\nIF 2.933<\/p>\n

14. B. \u0141yso\u0144-Sypie\u0144, M. Radecka, M. R\u0119kas, K. \u015awierczek, K. Michalow-Mauke, T. Graule, K. Zakrzewska
\n\u201eGrain-size-dependent gas-sensing properties of TiO2 nanomaterials\u201d
\nSensors and Actuators B-Chemical 211 (2015) 67-76
\nIF 4.758<\/p>\n

15. J. Molenda, D. Baster, A. Milewska, K. \u015awierczek, D.K. Bora, A. Braun, J. Tobo\u0142a
\n\u201eElectronic origin of difference in discharge curve between LixCoO2 and NaxCoO2 cathodes\u201d
\nSolid State Ionics 271 (2015) 15-27
\nIF 2.380<\/p>\n

16. A. Kulka, A. Braun, T.-W. Huang, A. Wolska, M.T. Klepka, A. Szewczyk, D. Baster,
\nW. Zaj\u0105c, K. \u015awierczek, J. Molenda
\n\u201eEvidence for Al doping in lithium sublattice of LiFePO4\u201d
\nSolid State Ionics 270 (2015) 33-38
\nIF 2.380<\/p>\n

17. X. Liu, J. Xie, H. Zhao, P. Lv, K. Wang, Z. Feng, K. \u015awierczek
\n\u201eElectrochemical properties of mechanochemically synthesized CoSn2-C nanocomposite-type anode material for Li-ion batteries\u201d
\nSolid State Ionics 269 (2015) 86-92
\nIF 2.380<\/p>\n

18. X. Liu, H. Zhao, A. Kulka, A. Trenczek-Zaj\u0105c, J. Xie, N. Chen, K. \u015awierczek
\n\u201eCharacterization of physicochemical properties of novel SnS2 with cubic structure and diamond-like Sn sublattice\u201d
\nActa Materialia 82 (2015) 212-223
\nIF 5.058<\/div><\/div><\/div>

<\/i><\/i><\/span>2014<\/span><\/a><\/h4><\/div>
1. K. \u015awierczek, A. Klimkowicz, A. Niemczyk, A. Olszewska, T. Rz\u0105sa, J. Molenda,
\nA. Takasaki
\n\u201eOxygen storage-related properties of substituted BaLnMn2O5+\u03b4 A-site ordered manganites\u201d
\nFunctional Materials Letters 7(6) (2014) 1440004
\nIF 1.606<\/p>\n

2. K. Zheng, K. \u015awierczek
\n\u201ePhysicochemical properties of rock salt-type ordered Sr2MMoO6 (M = Mg, Mn, Fe, Co, Ni) double perovskites\u201d
\nJournal of the European Ceramic Society 34(16) (2014) 4273-4284
\nIF 2.947<\/p>\n

3. J. Molenda, D. Baster, M. Molenda, K. \u015awierczek, J. Tobo\u0142a
\n\u201eAnomaly in electronic structure of NaxCoO2-y cathode as a source of its step-like discharge curve\u201d
\nPhysical Chemistry Chemical Physics 16(28) (2014) 14845-14857
\nIF 4.493<\/p>\n

4. A. Milewska, K. \u015awierczek, J. Tobola, F. Boudoire, Y. Hu, D.K. Bora, B.S. Mun,
\nA. Braun, J. Molenda
\n\u201eThe nature of the nonmetal-metal transition in LixCoO2 oxide\u201d
\nSolid State Ionics 263 (2014) 110-118
\nIF 2.561<\/p>\n

5. B. G\u0119dziorowski, \u0141. Kondracki, K. \u015awierczek, J. Molenda
\n\u201eStructural and transport properties of Li1+xV1-xO2 anode materials for Li-ion batteries\u201d
\nSolid State Ionics 262 (2014) 124-127
\nIF 2.561<\/p>\n

6. D. Baster, K. Dybko, M. Szot, K. \u015awierczek, J. Molenda
\n\u201eSodium intercalation in NaxCoO2-y – correlation between crystal structure, oxygen nonstoichiometry and electrochemical properties\u201d
\nSolid State Ionics 262 (2014) 206-210
\nIF 2.561<\/p>\n

7. K. Zheng, K. \u015awierczek, J. Bratek, A. Klimkowicz
\n\u201eCation-ordered perovskite-type anode and cathode materials for Solid Oxide Fuel Cells\u201d
\nSolid State Ionics 262 (2014) 354-358
\nIF 2.561<\/p>\n

8. A. Klimkowicz, K. \u015awierczek, K. Zheng, M. Baranowska, A. Takasaki, B. Dabrowski
\n\u201eEvaluation of BaY1-xPrxMn2O5+\u03b4 oxides for oxygen storage technology\u201d
\nSolid State Ionics 262 (2014) 659-663
\nIF 2.561<\/p>\n

9. K. \u015awierczek, N. Yoshikura, K. Zheng, A. Klimkowicz
\n\u201eCorrelation between crystal and transport properties in LnBa0.5Sr0.5Co1.5Fe0.5O5+\u03b4
\n(Ln – selected lanthanides, Y)\u201d
\nSolid State Ionics 262 (2014) 645-649
\nIF 2.561<\/p>\n

10. Z. Du, H. Zhao, Y. Shen, L. Wang, M. Fang, K. \u015awierczek, K. Zheng
\n\u201eEvaluation of La0.3Sr0.7Ti1-xCoxO3 as potential cathode material for Solid Oxide Fuel Cells\u201d
\nJournal of Materials Chemistry A 2(26) (2014) 10290-10299
\nIF 7.443<\/p>\n

11. K. Zheng, K. \u015awierczek, W. Zaj\u0105c, A. Klimkowicz
\n\u201eRock salt ordered-type double perovskite anode materials for Solid Oxide Fuel Cells\u201d
\nSolid State Ionics 257 (2014) 9-16
\nIF 2.561<\/p>\n

12. A. Klimkowicz, K. \u015awierczek, A. Takasaki, B. Dabrowski
\n\u201eOxygen storage capability in Co- and Fe-containing perovskite-type oxides\u201d
\nSolid State Ionics 257 (2014) 23-28
\nIF 2.561<\/p>\n

13. Y. Shen, H. Zhao, J. Xu, X. Zhang, K. Zheng, K. \u015awierczek
\n\u201eEffect of ionic size of dopants on the lattice structure, electrical and electrochemical
\nproperties of La2-xMxNiO4+\u03b4 (M = Ba, Sr) cathode materials\u201d
\nInternational Journal of Hydrogen Energy 39(2) (2014) 1023-1029
\nIF 3.313<\/div><\/div><\/div>

<\/i><\/i><\/span>2013<\/span><\/a><\/h4><\/div>
1. H. Zhao, Y. Zheng, C. Yang, Y. Shen, Z. Du, K. \u015awierczek
\n\u201eElectrochemical performance of Pr1-xYxBaCo2O5+\u03b4 layered perovskites as cathode materials for intermediate-temperature solid oxide fuel cells\u201d
\nInternational Journal of Hydrogen Energy 38(36) (2013) 16365-16372
\nIF 2.930<\/p>\n

2. D. Baster, A. Takasaki, C. Kuroda, E. Hanc, S.-H. Lee, K. \u015awierczek, J.S. Szmyd,
\nJ.-Y. Kim, J. Molenda
\n\u201eEffect of mechanical milling on electrochemical properties of Ti45Zr38-xNi17+x (x = 0, 8) quasicrystals produced by rapid-quenching\u201d
\nJournal of Alloys and Compounds 580(S1) (2013) S238-S242
\nIF 2.726<\/p>\n

3. A. Kulka, D. Baster, M. Dudek, M. Kie\u0142basa, A. Milewska, W. Zaj\u0105c, K. \u015awierczek,
\nJ. Molenda
\n\u201eElectrochemical properties of chemically modified phosphoolivines as cathode materials
\nfor Li-ion batteries\u201d
\nJournal of Power Sources 244 (2013) 565-569
\nIF 5.211<\/p>\n

4. Y. Shen, H. Zhao, K. \u015awierczek, Z. Du, Z. Xie
\n\u201eLattice structure, sintering behavior and electrochemical performance of
\nLa1.7Ca0.3Ni1-xCuxO4+\u03b4 as cathode material for intermediate-temperature solid oxide fuel cell\u201d
\nJournal of Power Sources 240 (2013) 759-765
\nIF 5.211<\/p>\n

5. A. Kusior, J. Klich-Kafel, A. Trenczek-Zaj\u0105c, K. \u015awierczek, M. Radecka, K. Zakrzewska
\n\u201eTiO2-SnO2 nanomaterials for gas sensing and photocatalysis\u201d
\nJournal of the European Ceramic Society 33(12) (2013) 2285-2290
\nIF 2.307<\/p>\n

6. K. \u015awierczek, A. Klimkowicz, K. Zheng, B. Dabrowski
\n\u201eSynthesis, crystal structure and electrical properties of A-site cation ordered BaErMn2O5 and BaErMn2O6\u201d
\nJournal of Solid State Chemistry 203 (2013) 68-73
\nIF 2.200<\/p>\n

7. J. Molenda, A. Kulka, A. Milewska, W. Zaj\u0105c, K. \u015awierczek
\n\u201eStructural, transport and electrochemical properties of LiFePO4 substituted in lithium and iron sublattices (Al, Zr, W, Mn, Co and Ni)\u201d
\nMaterials 6 (2013) 1656-1687
\nIF 1.879<\/p>\n

8. D. Baster, K. Zheng, W. Zaj\u0105c, K. \u015awierczek, J. Molenda
\n\u201eToward elucidation of delithiation mechanism of zinc-substituted LiFePO4\u201d
\nElectrochimica Acta 92 (2013) 79-86
\nIF 4.086<\/p>\n

9. C. Kuroda, K. Zheng, K. \u015awierczek
\n\u201eCharacterization of novel GdBa0.5Sr0.5Co2-xFexO5+\u03b4 perovskites for application in
\nIT-SOFC cells\u201d
\nInternational Journal of Hydrogen Energy 38(2) (2013) 1027-1038
\nIF 2.930<\/div><\/div><\/div>

<\/i><\/i><\/span>2012<\/span><\/a><\/h4><\/div>
1. K. Zheng, A. Gorzkowska-Soba\u015b, K. \u015awierczek
\n\u201eEvaluation of Ln2CuO4 (Ln: La, Pr, Nd) oxides as cathode materials for IT-SOFCs\u201d
\nMaterials Research Bulletin 47(12) (2012) 4089-4095
\nIF 1.913<\/p>\n

2. B. G\u0119dziorowski, K. \u015awierczek, J. Molenda
\n\u201eLa1-xBaxCo0.2Fe0.8O3-\u03b4 perovskites for application in intermediate temperature SOFCs\u201d
\nSolid State Ionics 225 (2012) 437-442
\nIF 2.046<\/p>\n

3. W. Zaj\u0105c, E. Hanc, A. Gorzkowska-Soba\u015b, K. \u015awierczek, J. Molenda
\n\u201eNd-doped Ba(Ce,Zr)O3-\u03b4 proton-conductors for application in conversion of CO2 into liquid fuels\u201d
\nSolid State Ionics 225 (2012) 297-303
\nIF 2.046<\/p>\n

4. A. Kulka, A. Milewska, W. Zaj\u0105c, K. \u015awierczek, E. Hanc, J. Molenda
\n\u201ePossibility of modification of phosphoolivine by substitution in Li sublattice\u201d
\nSolid State Ionics 225 (2012) 575-579
\nIF 2.046<\/p>\n

5. S. Kolesnik, B. Dabrowski, O. Chmaissem, S. Avci, J.P. Hodges, M. Avdeev,
\nK. \u015awierczek
\n\u201eEnhancement of the Curie temperature in NdBaCo2O5.5 by A-site Ca substitution\u201d
\nPhysical Review B 86(6) (2012) 064434
\nIF 3.767<\/p>\n

6. S. Kolesnik, B. Dabrowski, O. Chmaissem, K. Wojciechowski, K. \u015awierczek
\n\u201eComparison of magnetic and thermoelectric properties of (Nd,Ca)BaCo2O5.5 and (Nd,Ca)CoO3\u201d
\nJournal of Applied Physics 111(7) (2012) 07D727-1-3
\nIF 2.210<\/div><\/div><\/div>

<\/i><\/i><\/span>2011<\/span><\/a><\/h4><\/div>
1. K. \u015awierczek
\n\u201ePhysico-chemical properties of Ln0.5A0.5Co0.5Fe0.5O3-\u03b4 (Ln: La, Sm; A: Sr, Ba) cathode materials and their performance in electrolyte-supported intermediate temperature solid oxide fuel cell\u201d
\nJournal of Power Sources 196(17) (2011) 7110-7116
\nIF 4.951<\/p>\n

2. M. Kimura, K. \u015awierczek, J. Marzec, J. Molenda
\n\u201eInfluence of aluminum on physico-chemical properties of lithium iron phosphate\u201d
\nFunctional Materials Letters 4(2) (2011) 123-127
\nIF 0.724<\/p>\n

3. J. Han, K. Zheng, K. \u015awierczek
\n\u201eNickel-based layered perovskite cathode materials for application in Intermediate-Temperature Solid Oxide Fuel Cells\u201d
\nFunctional Materials Letters 4(2) (2011) 151-155
\nIF 0.724<\/p>\n

4. K. \u015awierczek
\n\u201eElectrolyte-supported IT-SOFC with LSCF – SCFN composite cathode\u201d
\nSolid State Ionics 192(1) (2011) 486-490
\nIF 2.646<\/div><\/div><\/div>

<\/i><\/i><\/span>Previous works<\/span><\/a><\/h4><\/div>
\n

1. W. Zaj\u0105c, L. Suescun, K. \u015awierczek, J. Molenda
\n\u201eStructural and electrical properties of grain boundaries in Ce0.85Gd0.15O1.925 solid electrolyte modified by addition of transition metal ions\u201d
\nJournal of Power Sources 194(1) (2009) 2-9
\nIF 3.792<\/p>\n

2. M. Gozu, K. \u015awierczek, J. Molenda
\n\u201eStructural and transport properties of layered Li1+x(Mn1\/3Co1\/3Ni1\/3)1-xO2 oxides prepared by a soft chemistry method\u201d
\nJournal of Power Sources 194(1) (2009) 38-44
\nIF 3.792<\/p>\n

3. K. \u015awierczek
\n\u201eOxygen nonstoichiometry and transport properties of selected La1-xSrxCo1-y-zFeyNizO3-\u03b4 perovskites\u201d
\nPolish Journal of Chemistry 83(8) (2009) 1437-1442
\nIF 0.523<\/p>\n

4. K. \u015awierczek, J. Marzec
\n\u201eStructural properties of SrCo0.2Fe0.8O3-\u03b4 oxide: oxygen nonstoichiometry, vacancy ordering and broken local symmetry\u201d
\nPolish Journal of Chemistry 83(8) (2009) 1489-1496
\nIF 0.523<\/p>\n

5. J. Molenda, J. Krupi\u0144ski, W. Zaj\u0105c, K. \u015awierczek
\n\u201eEvaluation of La0.5Sr0.5Co0.5Fe0.25Mn0.25O3-\u03b4 perovskite-type oxide as the cathode material for Solid Oxide Fuel Cells\u201d
\nPolish Journal of Chemistry 83(8) (2009) 1497-1506
\nIF 0.523<\/p>\n

6. J.-S. Kang, H.J. Lee, D.H. Kim, S. Kolesnik, B. Dabrowski, K. \u015awierczek, J. Lee, B. Kim, B.I. Min
\n\u201eValence and spin states, and the metal-insulator transition in ferromagnetic
\nLa2-xSrxMnNiO6 (x = 0, 0.2)\u201d
\nPhysical Review B 80(4) (2009) 045115
\nIF 3.475<\/p>\n

7. K. \u015awierczek, B. Dabrowski, L. Suescun, S. Kolesnik
\n\u201eCrystal structure and magnetic properties of high oxygen pressure annealed
\nSr1-xLaxCo0.5Fe0.5O3-\u03b4 (0 \u2264 x \u2264 0.5)\u201d
\nJournal of Solid State Chemistry 182(2) (2009) 280-288
\nIF 2.340<\/p>\n

8. K. \u015awierczek
\n\u201eThermoanalysis, nonstoichiometry and thermal expansion of La0.4Sr0.6Co0.2Fe0.8O3-\u03b4, La0.2Sr0.8Co0.2Fe0.8O3-\u03b4, La0.9Sr0.1Co1\/3Fe1\/3Ni1\/3O3-\u03b4 and La0.6Sr0.4Co0.2Fe0.6Ni0.2O3-\u03b4 perovskites\u201d
\nSolid State Ionics 179(1-6) (2008) 126-130
\nIF 2.425<\/p>\n

9. M. Gateshki, L. Suescun, S. Kolesnik, J. Mais, K. \u015awierczek, S. Short, B. Dabrowski \u201eStructural, magnetic and electronic properties of LaNi0.5Fe0.5O3 in the temperature range 5 – 1000 K\u201d
\nJournal of Solid State Chemistry 181(8) (2008) 1833-1839
\nIF 1.910<\/p>\n

10. J. Molenda, K. \u015awierczek, W. Zaj\u0105c
\n\u201eFunctional materials for the IT-SOFC\u201d
\nJournal of Power Sources 173(2) (2007) 657-670
\nIF 2.809<\/p>\n

11. K. \u015awierczek, M. Gozu
\n\u201eStructural and electrical properties of selected La1\u2212xSrxCo0.2Fe0.8O3 and La0.6Sr0.4Co0.2Fe0.6Ni0.2O3 perovskite type oxides\u201d
\nJournal of Power Sources 173(2) (2007) 695-699
\nIF 2.809<\/p>\n

12. W. Zaj\u0105c, K. \u015awierczek, J. Molenda
\n\u201eThermochemical compatibility between selected (La,Sr)(Co,Fe,Ni)O3 cathodes and rare earth doped ceria electrolytes\u201d
\nJournal of Power Sources 173(2) (2007) 675-680
\nIF 2.809<\/p>\n

13. W. Ojczyk, J. Marzec, K. \u015awierczek, W. Zaj\u0105c, M. Molenda, R. Dziembaj, J. Molenda, \u201eStudies of selected synthesis procedures of the conducting LiFePO4 – based composite cathode materials for Li – ion batteries\u201d
\nJournal of Power Sources 173(2) (2007) 700-706
\nIF 2.809<\/p>\n

14. J. Molenda, W. Ojczyk, K. \u015awierczek, W. Zaj\u0105c, F. Krok, J. Dygas, R. S. Liu
\n\u201eDiffusional mechanism of deintercalation in LiMnyFe1-yPO4 cathode material\u201d
\nSolid State Ionics 177(26-32) (2006) 2617-2624
\nIF 2.190<\/p>\n

15. K. \u015awierczek, J. Marzec, D. Pa\u0142ubiak, W. Zaj\u0105c, J. Molenda
\n\u201eLFN and LSCFN perovskites – structure and transport properties\u201d
\nSolid State Ionics 177(19-25) (2006) 1811-1817
\nIF 2.190<\/p>\n

16. K. \u015awierczek, J. Marzec, J. Molenda
\n\u201eLa1-xSrxCo1-y-zFeyNizO3 perovskites – possible new cathode materials for an intermediate temperature Solid Oxide Fuel Cells\u201d
\nMaterials Science – Poland 24(1) (2006) 115-122
\nIF 0.334<\/p>\n

17. J. Molenda, K. \u015awierczek, W. Zaj\u0105c
\n\u201eWysokotemperaturowe tlenkowe ogniwa paliwowe – nowe kierunki bada\u0144\u201d
\nPrzemys\u0142 Chemiczny 84(11) (2005) 845-852
\nIF 0.104<\/p>\n

18. J. Molenda, M. Ziemnicki, K. \u015awierczek, J. Marzec
\n\u201eTransport and electrochemical properties of LiyNixMn2-xO4 (0.1 \u2264 x \u2264 0.5) cathode materials\u201d
\nDefects and Diffusion in Ceramics – An Annual Retrospective VII, Defect and Diffusion Forum 242-244 (2005) 65-76
\nIF 0.483<\/p>\n

19. W. Ojczyk, J. Marzec, K. \u015awierczek, J. Molenda
\n\u201eLithium diffusion in LiMnyFe1-yPO4 cathode material\u201d
\nDefect and Diffusion Forum 237-240 (2005) 1299-1305
\nIF 0.483<\/p>\n

20. K. \u015awierczek, J. Marzec, W. Ojczyk, J. Molenda
\n\u201eStructural and transport properties of La1-xSrxCo1-y-zFeyNizO3-\u03b4 perovskites\u201d
\nDefect and Diffusion Forum 237-240 (2005) 1293-1298
\nIF 0.483<\/p>\n

21. J. Molenda, J. Marzec, K. \u015awierczek, D. Pa\u0142ubiak, W. Ojczyk, M. Ziemnicki
\n\u201eThe effect of 3d substitutions in the manganese sublattice on the electrical and electrochemical properties of manganese spinel\u201d
\nSolid State Ionics 175(1-4) (2004) 297-304
\nIF 1.862<\/p>\n

22. J. Molenda, J. Marzec, K. \u015awierczek, W. Ojczyk, M. Ziemnicki, M. Molenda,
\nM. Drozdek, R. Dziembaj
\n\u201eThe effect of 3d substitutions in the manganese sublattice on the charge transport mechanism and electrochemical properties of manganese spinel\u201d
\nSolid State Ionics 171(3-4) (2004) 215-227
\nIF 1.862<\/p>\n

23. J. Molenda, K. \u015awierczek, J. Marzec, R.S. Liu
\n\u201eCharge transport mechanism in LiCoyMn2-yO4 cathode material\u201d
\nSolid State Ionics 157(1-4) (2003) 101-108
\nIF 1.599<\/p>\n

24. K. \u015awierczek, J. Marzec, M. Marzec, J. Molenda
\n\u201eCrystallographic and electronic properties of Li1+\u03b4Mn2-\u03b4O4 spinels prepared by HT synthesis\u201d
\nSolid State Ionics 157(1-4) (2003) 89-93
\nIF 1.599<\/p>\n

25. J. Marzec, K. \u015awierczek, J. Przewo\u017anik, J. Molenda, D.R. Simon, E.M. Kelder,
\nJ. Schoonman
\n\u201eConduction mechanism in operating a LiMn2O4 cathode\u201d
\nSolid State Ionics 146(3-4) (2002) 225-237
\nIF 1.768<\/p>\n

26. J. Molenda, K. \u015awierczek, M. Molenda, J. Marzec
\n\u201eElectronic structure and reactivity of Li1-xMn2O4 cathode\u201d
\nSolid State Ionics 135(1-4) (2000) 53-59
\nIF 1.529<\/p>\n

27. J. Molenda, K. \u015awierczek, W. Kucza, J. Marzec, A. Stok\u0142osa
\n\u201eElectrical properties of LiMn2O4-\u03b4 at temperatures 220 – 1100K\u201d
\nSolid State Ionics 123(1-4) (1999) 155-163
\nIF 1.439<\/p>\n<\/div><\/div><\/div><\/div><\/div>

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Research projects
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Current research topics<\/strong><\/span>
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National Science Centre Poland (NCN) research project (2020\/37\/B\/ST8\/02097) “New generation of copper compounds-based air electrodes for solid oxide fuel cells and high temperature electrolyzers\u201d<\/strong><\/span><\/h4>\n

AGH research project (IDUB action D4 no. 9880) “New generation of catalysts for co-electrolysis of H2O and CO2 in reversible high-temperature ceramic cells (SOC)\u201d<\/strong><\/span><\/h4>\n

AGH research project (IDUB action D4 no. 6354) “New generation of lithium-ion cells with high energy density with a cathode based on surface-modified high-nickel layered oxide and an anode operating based on a combined conversion and alloying mechanism\u201d<\/strong><\/span><\/h4>\n

\u2022<\/span> Design, research of physicochemical properties, and optimization of electrode materials for SOFC-type fuel cells and SOEC high-temperature electrolyzers, with particular emphasis on structural aspects, electrode microstructure, charge transfer mechanism, stability, and thermochemical properties. Modification of compounds with 4d\/5d cations and the use of multicomponent high-entropy materials. Determination of polarization phenomena on electrodes and research on the electrochemical properties of cells. Design of materials for the co-electrolysis process of H2<\/sub>O and CO2<\/sub> at high temperatures.<\/span><\/h4>\n

\u2022<\/span> Design and optimization of a new generation of anode materials (high-entropy oxides, conversion and alloying-based materials) and cathode materials (layered oxides with high lithium content, DRX oxides with a disordered rock-salt structure) for lithium cells characterized by high power density and stored energy. The research activity focuses on measuring the crystal structure and determining its modifications in electrode processes, studying the mechanism of ionic and electronic charge transfer, and determining the electrochemical properties in terms of electrode capacity and the reversibility of charge\/discharge cycles.<\/span><\/h4>\n

\u2022<\/span> Machine learning in predicting the properties of Li-ion cells. Analysis of charge\/discharge curves and electrode morphology using artificial intelligence techniques.
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Supervised doctoral dissertations<\/span><\/h3>\n<\/div>

Dr. Eng. Boyang Fu<\/span><\/strong>
\ntitle:<\/span>\u201c“Development of Ni-rich and Li-rich layered oxides as cathode materials for high-energy-density Li-ion cells\u201d<\/span><\/h4>\n

Dr. Eng. Keyun Li<\/span><\/strong>
\ntitle: \u201cFunctional oxygen electrodes for Solid Oxide Cells based on Cu-containing perovskite-type oxides\u201d<\/span><\/h4>\n

Dr. Eng. Maciej Mo\u017adzierz<\/span><\/strong>
\ntitle: \u201cHigh-entropy oxides as candidate anode materials for Li-ion cells\u201d<\/span><\/h4>\n

Dr. Eng. Kacper Cichy<\/span><\/strong>
\ntitle: \u201cRedox processes in energy-related technologies – use of mixed ionic-electronic conductors for oxygen production\u201d<\/span><\/h4>\n

Dr. Eng. Tomasz Polczyk
\n<\/span><\/strong>(in Polish) title: \u201cNew generation of lithium cells – reversible cells with solid ceramic electrolyte\u201d<\/span><\/h4>\n

Dr. Eng. Anna Niemczyk<\/span><\/strong>
\n(in Polish) title: \u201cDevelopment of highly effective electrode materials based on copper compounds for Solid Oxide Fuel Cells and high-temperature steam electrolyzers\u201d<\/span><\/h4>\n

Dr. Eng. Anna Olszewska<\/strong><\/span>
\n(in Polish) title: \u201cCorrelation between structure and transport properties in layer-ordered LnBaCo2-x<\/sub>Mnx<\/sub>O5+\u03b4<\/sub> perovskites for high temperature fuel cells\u201d<\/span><\/h4>\n

Dr. Eng. Wojciech Skubida<\/span><\/strong>
\ntitle: \u201cCorrelation between structure and transport properties in proton-conducting oxides in the design of electrodes and electrolytes for Protonic Ceramic Fuel Cells\u201d<\/span>
\nDr. Eng. Alicja Klimkowicz<\/span><\/strong>
\ntitle: \u201cPerovskite-based oxygen storage materials\u201d<\/span><\/h4>\n

Dr. Eng. Kun Zheng<\/strong><\/span>
\ntitle: \u201cNovel electrode materials for IT-SOFC fueled by syngas\u201d<\/span><\/h4>\n<\/div>
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Current PhD research topics <\/span><\/h3>\n<\/div>

\u2022<\/span> High-entropy oxides as candidate anode materials for Li-ion cells<\/span><\/h4>\n

\u2022<\/span> Functional materials for reversible Solid Oxide Cells<\/span><\/h4>\n

\u2022<\/span> Surface engineering of Ni-rich layered oxides for high energy density Li-ion cells<\/span><\/h4>\n

\u2022<\/span> Modified by 4d\/5d elements high-entropy electrode materials with perovskite structure<\/span><\/h4>\n

\u2022<\/span> Strontium-based high- and medium-entropy electrode materials with perovskite structure for application in ceramic fuel cells technology<\/span><\/h4>\n

People interested in pursuing PhD studies in the academic year 2025\/2026 are requested to contact me directly.
\nProposed PhD research topics:<\/em><\/strong><\/span><\/h4>\n

\u2022<\/span> Development of cation-disordered rock salt structure-type (DRX) cathode materials for electrochemical applications<\/span><\/h4>\n

\u2022<\/span> Predicting the properties of Li-ion cells using machine learning<\/span><\/h4>\n

\u2022<\/span> Electrode materials for the high-temperature co-electrolysis of H2<\/sub>O and CO2<\/sub> in symmetrical Solid Oxide Electrolyzer Cells<\/span><\/h4>\n<\/div>
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Job offers in research projects<\/span>
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There are currently no free positions available in research projects.<\/span><\/h4>\n<\/div>
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Offers of scientific and research internships<\/span>
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There is a possibility to conduct a research internship with a duration of 1-3 months at the Department of Hydrogen Energy, Faculty of Energy and Fuels, AGH University, or with a foreign scientific partner.<\/span><\/h4>\n<\/div>
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<\/i>Teaching<\/span><\/a><\/div>
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Teaching<\/h2>\n<\/div>

Didactic materials for PhD students and students (academic year 2024\/2025) \u2013 available individually upon prior contact.<\/h4>\n