Selected articles:<\/strong><\/p>\n2020<\/strong><\/p>\n\n- J. Polanski, D. Lach, M. Kapkowski, P. Bartczak, T. Siudyga, A. Smoli\u0144ski, Ru and Ni – Privileged Metal Combination for Environmental Nanocatalysis, Catalysts 992 (2020) 1-18. (MNiSW = 100; IF = 3.520)<\/li>\n
- M. Kapkowski, M. Ludynia, M. Rudnicka, M. Dzida, E. Zor\u0119bski, M. Musia\u0142, M. Dole\u017eal, J. Polanski, Enhancing the CO2<\/sub> capturing ability in leaf via xenobiotic auxin uptake, Sci. Total Environ., 742 (2020) 141032. (MNiSW = 200; IF = 6.551)<\/li>\n
- T. Siudyga, M. Kapkowski, P. Bartczak, M. Zubko, J. Szade, K. Balin, S. Antoniotti, J. Polanski, Ultra-low temperature carbon (di)oxide hydrogenation catalyzed by hybrid ruthenium-nickel nanocatalysts: towards sustainable methane production, Green Chem., 22 (2020) 5143-5150. (MNiSW = 200; IF = 9.480)<\/li>\n
- T. Siudyga, M. Kapkowski, D. Janas, T. Wasiak, R. Sitko, M. Zubko, J. Szade, K. Balin, J. Klimontko, D. Lach, J. Popiel, A. Smoli\u0144ski, J. Polanski, Nano-Ru Supported on Ni Nanowires for Low-Temperature Carbon Dioxide Methanation, Catalysts, 513 (2020) 1-14. (MNiSW = 100; IF = 3.520)<\/li>\n
- J. Polanski, R. Duszkiewicz, Property representations and molecular fragmentation of chemical compounds in QSAR modeling, Chemometrics and Intelligent Laboratory Systems, 206 (2020) 104146 (MNiSW = 100; IF = 2.895)<\/li>\n
- A. Wodo\u0142a\u017cski, J. Skiba, K. Zar\u0119bska, J. Pola\u0144ski, A. Smolinski,\u00a0 CFD Modeling of the Catalyst Oil Slurry Hydrodynamics in a High Pressure and Temperature as Potential for Biomass Liquefaction, Energies 13 (2020) 5694 (MNiSW = 140; IF = 2.702)<\/li>\n
- M. Korzec, K. Malarz, A. Mrozek-Wilczkiewicz, R. Rzycka-Korzec, E. Schab-Balcerzak, J. Pola\u0144ski, Live cell imaging by 3-imino-(2-phenol)-1,8-naphthalimides: The effect of ex vivo hydrolysis, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 238 (2020) 118442. (MNiSW = 100; IF = 3.232)<\/li>\n
- P. Nalepa, R. Gawecki, G. Szewczyk, K. Balin, M. Dulski, M. Sajewicz, A. Mrozek-Wilczkiewicz, R.Musio\u0142, J. Polanski, M. Serda, A [60]fullerene nanoconjugate with gemcitabine: synthesis, biophysical properties and biological evaluation for treating pancreatic cancer, Cancer Nanotechnology, 11 (2020) 1-21. (MNiSW = 100; IF = 6.39)<\/li>\n
- Nikolsky V, Kuzyayev I, Dychkovskyi R, Alieksandrov O, Yaris V, Ptitsyn S, Tikhaya L, Howaniec N, Bak A, Siudyga T, Jura B, Cabana E, Szymanek A, Smoli\u0144ski A. A Study of Heat Exchange Processes within the Channels of Disk Pulse Devices. Energies. 2020; 13(13):3492. (MNiSW = 140; IF = 2.702)<\/li>\n<\/ol>\n
2019<\/strong><\/p>\n\n- A. Bak, V. Kozik, D. Kozakiewicz, K. Gajcy, D. J. Strub, A. Swietlicka, S. Stepankova,A.Imramovsky, J. Polanski, A. Smolinski, J. Jampilek, Novel Benzene-Based Carbamates for AChE\/BChE Inhibition: Synthesis and Ligand\/Structure-Oriented SAR Study, International Journal of Molecular Sciences, 20 (2019) 1524. (MNiSW = 100; IF = 4.556)<\/li>\n
- R. Gawecki, K. Malarz, M. Rejmund, J. Polanski, A. Mrozek-Wilczkiewicz, Impact of thiosemicarbazones on the accumulation of PpIX and the expression of the associated genes, Journal of Photochemistry and Photobiology B: Biology, 199 (2019) 111585. (MNiSW = 100; IF = 4.383)<\/li>\n
- M. Korzec, S. Senka\u0142a, R. Rzycka-Korzec, S. Kotowicz, E. Schab-Balcerzak, J. Pola\u0144ski, A highly selective and sensitive sensor with imine and phenyl-ethynyl-phenyl units for the visual and fluorescent detection of copper in water, Journal of Photochemistry and Photobiology A: Chemistry, 382 (2019) 111893. (MNiSW = 70; IF = 3.306)<\/li>\n
- J. Polanski, A. Bak, Ligand potency – an essential estimator for drug design: between intuition, misinterpretation and serendipity, Future Medicinal Chemistry, 11 (2019) 1827-1843. (MNiSW = 100; IF = 3.969)<\/li>\n
- J. Polanski, R. Duszkiewicz, A. Pedrys, J. Gasteiger, Scoring ligand efficiency, Acta Poloniae Pharmaceutica – Drug Research, 76 (2019) 761-768. (MNiSW = 40; IF = 0.447)<\/li>\n
- A. Mrozek-Wilczkiewicz, K. Malarz, M. Rejmund, J. Polanski, R. Musiol, Anticancer activity of the thiosemicarbazones that are based on di-2-pyridine ketone and quinoline moiety, European Journal of Medicinal Chemistry, 171 (2019) 180-194. (MNiSW = 140; IF = 5.572)<\/li>\n
- M. Kapkowski, A. Niemczyk-Wojdyla, P. Bartczak, M. Pyrkosz Bulska, K. Gajcy, R. Sitko, M. Zubko, J. Szade, J. Klimontko, K. Balin, J. Polanski, A Study of Catalytic Oxidation of a Library of C2<\/sub> to C4<\/sub> Alcohols in the Presence of Nanogold, Nanomaterials, 442 (2019) 1-17. (MNiSW = 70; IF = 4.324)<\/li>\n
- J. Polanski, A. Pedrys, R. Duszkiewicz, U. Kucia, Ligand Potency, Efficiency and Drug-likeness: A Story of Intuition, Misinterpretation and Serendipity, Current Protein & Peptide Science 20 (2019) 1069-1076. (MNiSW = 70; IF = 2.520)<\/li>\n
- J. Polanski, A. Pedrys, R. Duszkiewicz, J. Gasteiger, Scoring Ligand Efficiency: Potency, Ligand Efficiency and Product Ligand Efficiency within Big Data Landscape, Letters in Drug Design & Discovery, 16 (2019) 1258-1263. (MNiSW = 20; IF = 1.169)<\/li>\n<\/ol>\n
2018<\/strong><\/p>\n\n- M. Rejmund, A. Mrozek-Wilczkiewicz, K. Malarz, M. Pyrkosz-Bulska, K. Gajcy, M. Sajewicz,\u00a0R. Musiol,\u00a0J. Polanski,\u00a0Piperazinyl fragment improves anticancer activity of Triapine\u00a0 PLOS\u00a0ONE, 13(4),\u00a0e0188767, 2018 (MNiSW = 100; IF = 2.870)<\/li>\n
- K. Jurkiewicz, M. Kaminski, W. Glajcar, N. Woznica, F. Julienne,\u00a0P. Bartczak, J. Polanski,\u00a0J. Lelatko, M. Zubko, A. Burian, „Paracrystalline structure of gold, silver, palladium and platinum nanoparticles”\u00a0Journal\u00a0of Applied Crystallography, 51 (2), 411-419, 2018. (MNiSW = 100; IF = 2.570)<\/li>\n
- J. Mularski, B. Czaplinska, W. Cieslik, J.\u00a0 Beblot, P. Bartczak, R. Sitko, J. Polanski, R.Musiol, Electrolytic copper as cheap and effective catalyst for one-pot triazole synthesis, Scientific Reports, 8, 4496, 2018. (MNiSW = 100; IF = 3.998)<\/li>\n
- D. Szeremeta, M. Knas, E. D\u0142ugosz, K. Krzyka\u0142a, A. Mrozek-Wilczkiewicz, R. Musiol, T. Kowalska, P.G. Ott, M. Sajewicz, A.M. Moricz, „Investigation of antibacterial and cytotoxic potential of phenolics derived from Cistus incanus L. by means of thin-layer chromatography-direct bioautography and cytotoxicity assay”, Journalof Liquid Chromatography & Related Technologies, 41, (6), 349-357, 2018. (MNiSW = 40; IF = 0.992)<\/li>\n
- M. Musial, M. Kuczak, A. Mrozek-Wilczkiewicz, R. Musiol, E. Zorebski, M. Dzida, Trisubstituted Imidazolium-Based Ionic Liquids as Innovative Heat Transfer Media in Sustainable Energy Systems, ACS Sustainable Chemistry & Engineering, 6,(6), 7960-7968, 2018 (MNiSW = 140; IF = 7.632)<\/li>\n
- D. Zych, A. S\u0142odek, S. Krompiec, K. Malarz, A. Mrozek – Wilczkiewicz, R. Musiol, „4 ’-Phenyl-2,2 ’:6 ’,2 ”-terpyridine Derivatives Containing 1-Substituted-2,3-Triazole Ring: Synthesis, Characterization and Anticancer Activity” , Chemistryselect, 3,(24), 7009 – 7017, 2018 (MNiSW = 40; IF = 1.811).<\/li>\n
- M. Dzida, M. Musial, E. Zorebski, S. Jezak, J. Skowronek, K. Malarz, A. Mrozek-Wilczkiewicz, R. Musiol, A. Cyranka, M. Swiatek, „Comparative Study of the High Pressure Thermophysical Properties of 1-Ethyl-3-methylimidazolium and 1,3-Diethylimidazolium Ethyl Sulfates for Use as Sustainable and Efficient Hydraulic Fluids”, ACS Sustainable Chemistry & Engineering, 6,(8), 10934-10943, 2018 (MNiSW = 140; IF = 7.632)<\/li>\n
- K. Malarz, A. Mrozek-Wilczkiewicz, M. Rejmund, M. Serda, J. Polanski, R. Musiol, The role of oxidative stress in activity of anticancer thiosemicarbazones,\u00a0Oncotarget,\u00a0\u00a09,(25) 17689-17710, 2018 (MNiSW = 100; IF = 5.168)<\/li>\n
- B. Das, H. Daver, M. Pyrkosz-Bulska, E. Gumienna-Kontecka, F. Himo, E. Nordlander,\u00a0„Front Cover: An Unsymmetric Ligand with a N5O2 Donor Set and Its Corresponding Dizinc Complex: A Structural and Functional Phosphoesterase Model”,\u00a0European Journal of Inorganic Chemistry, 36, 2018 (MNiSW = 70; IF = 2.529)<\/li>\n
- M. Fr\u00edas, W. Cie\u015blik, A. Fraile, A. Rosado-Ab\u00f3n, A. F. Garrido-Castro, F. Yuste, J. Alem\u00e1n,\u00a0Development and Application of Asymmetric Organocatalytic Mukaiyama and Vinylogous-Mukaiyama-Type Reactions, Chemistry-A European Journal, 24, 1\u201329, 2018 (MNiSW = 140; IF = 4.857)<\/li>\n
- F. Esteban, W. Cies\u0301lik, E. M. Arpa, A. Guerrero-Corella, S. D\u00edaz-Tendero, J. Perles, J. A. Ferna\u0301ndez-Salas, A. Fraile, J. Alema\u0301n,\u00a0Intramolecular Hydrogen Bond Activation: ThioureaOrganocatalyzed Enantioselective 1,3-Dipolar Cycloaddition of Salicylaldehyde-Derived Azomethine Ylides with Nitroalkenes, ACS Catalysis, 8, 1884-1890, 2018 (MNiSW = 200; IF = 12.35)<\/li>\n
- M. Kapkowski, J. Popiel, T. Siudyga, M. Dzida, E. Zor\u0119bski, M. Musial, R. Sitko, J. Szade, K. Balin, J. Klimontko, M. Zubko, J. Polanski, Mono- and bimetallic nano-Re systems doped Os, Mo, Ru, Ir as nanocatalytic platforms for the acetalization of polyalcohols into cyclic acetals and their applications as fuel additives, Applied Catalysis B-Enviromental, 239,154-167,2018 (MNiSW = 200; IF = 16.683)<\/li>\n<\/ol>\n
2017<\/strong><\/p>\n\n- J. Pola\u0144ski, T. Siudyga, P. Bartczak, M. Kapkowski, W. Ambrozkiewicz, A. Nobis. R. Sitko, J. Klimontko, J. Szade, J. Lelatko, Oxide passivated Ni-supported Ru nanoparticles in silica: A new catalyst for low – temperature carbon dioxide methanation, Applied Catalysis B-Enviromental, 206, 16-23, 2017 (MNiSW = 200; IF = 16.683)<\/li>\n
- J. Pola\u0144ski, A Tkocz, Between Descriptors and Properties:Understanding the Ligand Efficiency Trends for G Protein-Coupled Receptor and Kinase Structure – Activity Data Sets, Journal of Chemical Information and Modeling, 57,(6), 1321-1329, 2017 (MNiSW = 100; IF = 4.549)<\/li>\n
- \u00a0M. Kapkowski, W Ambrozkiewicz, T. Siudyga, R. sitko, J. szade, J. Klimontko, K. Balin, J. Lel\u0105tko, J. Pola\u0144ski, Nano silica and molybdenum supported Re, Rh, Ru or Ir nanoparticles for selective solvent-free glicerol conversion to cyclic acetals with propanone and butanone under mild conditions,\u00a0Applied Catalysis B-Enviromental, 202,\u00a0335-345, 2017 (MNiSW = 200; IF = 16.683)<\/li>\n
- B. Czapli\u0144ska, A. Maron, J.G. Ma\u0142ecki, G. Szafraniec – Gorol, M. Matussek, K. Malarz, A. Mrozek – Wilczkiewicz, W. Danikiewicz, R. Musio\u0142, A. S\u0142odek, Comprehensive exploration of the optical and biological properties of new quinoline based cellular probes, \u00a0Dyes and Pigments, 144, 119-132, 2017 (MNiSW = 100; IF = 4.613)<\/li>\n
- P.K. Ranjith, Y. Sheena Mary, C. Y. Panicker, P.L. Anto, St. Armakovic, S.J. Armakovic, R. Musiol, J. Jampilek, C. Van Alsenoy, New quinolone derivative: Spectroscopic characterization and reactivity study by DFT and MD approaches, Journal of Molecular Structure, 1135, 1-14, 2017 (MNiSW = 70; IF = 2.463)<\/li>\n
- A. Mrozek- Wilczkiewicz, K. Malarz, M. Rams-Baron, M. Serda, D. Bauer, FP Montforts, A. Ratuszna, T. Burley, J. Pola\u0144ski, R. Musio\u0142, Iron Chelators and Exogenic Photosensitizers.\u00a0Synergy through Oxidative Stress Gene Expression, Journal of Cancer, 8, (11), 1979-1987, 2017 (MNiSW = 20; IF = 3.565)<\/li>\n
- M.J. Ware; M. Krzykawska-Serda; J. Chak-Shing Ho, J. Newton; S. Suki; J. Law; L. Nguyen; V. Keshishian; M. Serda; K. Taylor; S.A. Curley; S.J. Corr, Optimizing non-invasive radiofrequency hyperthermia treatment for improving drug delivery in 4T1 mouse breast cancer model, Scientific Reports,\u00a0 7, 43961, 2017 (MNiSW = 100; IF = 3.998)<\/li>\n
- N.A. Lapin, M. Krzykawska-Serda, S. Dilliard, Y. Mackeyev, M. Serda, L.J. Wilson, S.A. Curley, S.J. Corr, The effects of non-invasive radiofrequency electric field hyperthermia on biotransport and biodistribution of fluorescent [60] fullerene derivative in a murine orthotopic model of breast adenocarcinoma, J. Controlled Release, 260, 92-99, 2017 (MNiSW = 140; IF = 7.877)<\/li>\n
- J. Pola\u0144ski, A. Tkocz, U. Kucia, Beware of ligand efficiency (LE): understanding LE data in modeling structure-activity and structure-economy relationships, Journal of Cheminformatics, 9(49)2017 (MNiSW = 100; IF = 5.318)<\/li>\n
- J. Szczepaniak, W. Cieslik, A. Romanowicz, R. Musiol A. Krasowska,\u00a0Blocking and dislocation of Candida albicans Cdr1p transporter by styrylquinolines,\u00a0International Journal of Antimicrobial Agents,\u00a0\u00a050 (2017) 171-176 (MNiSW = 100; IF = 4.621)<\/li>\n
- R. Musio\u0142, K. Malarz, J. Mularski,\u00a0Quinoline Alkaloids Against Neglected Tropical Diseases,\u00a0Current Organic Chemistry,\u00a021(18) 2017, 1896-1906 (MNiSW = 70; IF = 2.157)<\/li>\n
- R. Musio\u0142,\u00a0An overview of quinoline as a privileged scaffold in cancer drug discovery,\u00a0Expert Opinion on Drug Discovery,\u00a012 (6) 2017 583-597 (MNiSW = 100; IF = 3.846)<\/li>\n
- K. Sala, K. Malarz, P.W. Barlow, E.U. Kurczynska,\u00a0„Distribution of some pectic and arabinogalactan protein epitopes during Solanum lycopersicum (L.) adventitious root development”,\u00a0BMC Plant Biology,\u00a017 (25) 2017 (MNiSW = 140; IF = 3.497)<\/li>\n
- M. Musia\u0142, K. Malarz, A. Mrozek-Wilczkiewicz, R. Musiol, E. Zor\u0119bski,\u00a0 M. Dzida,\u00a0„Pyrrolidinium-Based Ionic Liquids as Sustainable Media in HeatTransfer Processes” ACS Sustainable Chemistry & Engineering,\u00a05, 2017, 11024-1103 (MNiSW = 140; IF = 7.632)<\/li>\n
- P. Mucaji, A. G Atanasov, A. Bak, V. Kozik, K. Sieron, M.Olsen, W. Pan, Y.Liu, S. Hu, J.Lan, N. Haider, R.Musiol, J. Vanco, M. Diederich, S. Ji, J. Zitko, D.\u00a0 Wang, D. Agbaba, K.Nikolic, S. Oljacic, J. Vucicevic, D. Jezova, A. Tsantili-Kakoulidou, F. Tsopelas, C.\u00a0 Giaginis, T. Kowalska, M. Sajewicz, J. Silberring, P. Mielczarek, M. Smoluch, I. Jendrzejewska, J.Polanski, J. Jampilek,\u00a0The Forty-Sixth Euro Congress on Drug Synthesis and Analysis: Snapshot,\u00a0Molecules,\u00a0\u00a022(11)2017, 1848<\/li>\n
- J. Polanski, Big Data in Structure-Property Studies-From Definitions to Models, Advances in QSAR Modeling: Applications in Pharmaceutical, Chemical, Food, Agricultural and Environmental Sciences, Challenges and Advances in Computational Chemistry and Physics, 24, 529-552, 2017<\/li>\n<\/ol>\n
\u00a0\u00a0\u00a02016<\/strong><\/p>\n\n- J. Pola\u0144ski, U. Kucia, r. Duszkiewicz, A Kurczyk, T. Magdziarz, J. Gasteiger, ” Molecular descriptor data explaien market prices of a large commercial chemical compound library”, Scientific Reports, 6, 28521, 2016<\/li>\n
- J. Pola\u0144ski, J. Bogocz, A. Tkocz, „The analysis of the market success of FDA approvals by probing top 100 bestselling drugs”, Journal of Computer-Aided Molecular Design, 4,1-9, 2016<\/li>\n
- J. Polanski, „Meet our editorial board member”, Combinatorial Chemistry & High Throughput Screening, 19,97-98, 2016<\/li>\n
- G. Pastuch-Gawoleka; K. Malarz; A. Mrozek-Wilczkiewicz; \u00a0M. Serda; B. Czaplinska; R. Musiol; „Small molecule glycoconjugates with anticancer activity”; European Journal Of Medicinal Chemistry; \u00a012, 130-144, 2016<\/li>\n
- K.Z. Laczkowski ; M. Switalska \u00a0A. Baranowska-Lazkowska; T. Plech; A. Paneth; K. Misiura; J. Wietrzyk; B. Czaplinska; A. Mrozek-Wilczkiewicz; K. Malarz Katarzyna; R. Musiol; I. Grela; „Thiazole-based nitrogen mustards: Design, synthesis, spectroscopic studies, DFT calculation, molecular docking, and antiproliferative activity against selected human cancer cell lines”; Journal Of Molecular Structure; \u00a01119;139-150, 2016<\/li>\n
- R. Musio\u0142, J. Pola\u0144ski et al. \u201eThe Eighth Central European Conference \u201cChemistry towards Biology\u201d: Snapshot”; Molecules , 21(10), 1381, 2016<\/li>\n
- M. Orlowska; K. Pytlakowska; A. Mrozek-Wilczkiewicz ; R. Musiol; M. Waksmundzka-Hajnos; M. Sajewicz; T: Kowalska; \u00a0„A Comparison of Antioxidant, Antibacterial, and Anticancer Activity of the Selected Thyme Species by Means of Hierarchical Clustering and Principal Component Analysis”; Acta chromatographica; 2; 207-221,\u00a02016<\/li>\n
- A. Smolinski , L.\u00a0Drobek;\u00a0V. Dombek; A. Bak; „Modeling of experimental data on trace elements and organic compounds content in industrial waste dumps”; Chemosphere \u00a0162; 189-198; 2016;<\/li>\n
- A. Bak;\u00a0V. Kozik; A. Smolinski; J. Jampilek; „Multidimensional (3D\/4D-QSAR) probability-guided pharmacophore mapping: investigation of activity profile for a series of drug absorption promoters”; RSC Advances; 6 (80); 2016<\/li>\n
- M. Serda, Yen-Ku Wu, E. D. Barth, H. J. Halpern, and Viresh H. Rawal;”EPR Imaging Spin Probe Trityl Radical OX063: A Method for Its Isolation from Animal Effluent, Redox Chemistry of Its Quinone Methide Oxidation Product, and in Vivo Application in a Mouse”; Chemical Research in Toxicology; 29(12); 2153-2156; 2016<\/li>\n
- S. Kus, S. Srinvasan, D. Kasperczyk, V. Kozik, A. Bak, K. Barbusinski, \u00a0„Monitoring Corrosion in Continuous Bio-degradation of Sulfur-containing, Volatile Organic Compounds”, NACE International, 7437, 1-15, 2016<\/li>\n
- A. Bak, V. Kozik, P. Dybal, S. Sulowicz, D. Kasperczyk, S. Kus, K. Barbusinki, \u00a0„Abatement robustness of volatile organic compounds using compact trickle-bed bioreactor: Biotreatment of styrene, ethanol and dimethyl sulfide mixture in contaminated airstream”, Int. Biodeterior. Biodegradation, 1-13; 2016<\/li>\n
- D. Pentak, V. Kozik, A. Bak, P. Dybal, A. Sochanik, J. Jampilek, \u00a0„Preparation and characterization of liposomal therapeutic delivery systems”, Molecules, 21, 1689, 2016<\/li>\n<\/ol>\n
2015<\/strong><\/p>\n\n- M. Kapkowski, T. Siudyga, R.\u00a0Sitko, J. Lelatko,\u00a0J. Szade, K. Balin, J. Klimontko, P. Bartczak, J. Polanski, „Catalytic Gas-Phase Glycerol Processing over SiO2-, Cu-, Ni- and Fe- Supported Au Nanoparticles”,\u00a0PLOS ONE, 10(11); 2015<\/li>\n
- J. Polanski, J.\u00a0Bogocz, A. Tkocz, „Top 100 bestselling drugs represent an arena struggling for new FDA approvals: drug age as an efficiency indicator”,\u00a0Drug Discovery Today,\u00a020(11); 1300-1304; 2015<\/li>\n
- A. Kurczyk, D.\u00a0Warszycki,\u00a0R. Musio\u0142, R. Kafel, A. J.\u00a0Bojarski, J.\u00a0\u00a0Polanski, ”\u00a0Ligand-Based Virtual Screening in a Search for Novel Anti-HIV-1 Chemotypes”,\u00a0Journal of Chemical Information and Modeling, 55(10); \u00a02168-2177, 2015;<\/li>\n
- J. Polanski, P.\u00a0Bartczak,W. Ambrozkiewicz, R. Sitko,T. Siudyga, A. Mianowski, J.\u00a0Szade, K. Balin, J.\u00a0Lelatko, „Ni-Supported Pd Nanoparticles with Ca Promoter: A New Catalyst for Low-Temperature Ammonia Cracking”,\u00a0PLOS ONE,\u00a010(8); 2015;<\/li>\n
- M. Rams-Baron, M. Dulski, A. Mrozek-Wilczkiewicz, M. Korzec, W.\u00a0Cieslik, Wioleta; E. Spaczynska, P. Bartczak, A.\u00a0\u00a0Ratuszna,\u00a0J. Polanski, R.\u00a0\u00a0Musiol,\u00a0„Synthesis of New Styrylquinoline Cellular Dyes, Fluorescent Properties, Cellular Localization and Cytotoxic Behavior”,\u00a0\u00a0PLOS ONE; 10(6); 2015<\/li>\n
- A. Mrozek-Wilczkiewicz, E. Spaczynska,\u00a0K. Malarz, W. Cieslik,\u00a0M. Rams-Baron, V. Krystof,\u00a0R. Musiol, ”\u00a0Design, Synthesis and In Vitro Activity of Anticancer Styrylquinolines. The p53 Independent Mechanism of Action”,\u00a0PLOS ONE,\u00a010(11); 2015<\/li>\n
- Ulahannan, Rajeev T; Panicker, C. Yohannan; Varghese, Hema Tresa, Musiol Robert Jampilek Josef, Van Alsenoy Christian; War Javeed Ahmad; Srivastava, S. K; „Molecular structure, FT-IR, FT-Raman, NBO, HOMO and LUMO, MEP, NLO and molecular docking study of 2-[(E)-2-(2-bromophenyl)ethenyl]quinoline-6-carboxylic acid”,\u00a0Spectrochomica Acta Part A-Molecular And Biomolecular Spectroscopy,\u00a0151; 184-197; 2015<\/li>\n
- V. Kozik; K. Jarzembek, A. Jedrzejowska, A. Bak, J.\u00a0Polak, M. Bartoszek, K. Pytlakowska, „Investigation of Antioxidant Activity of Pomegranate Juices by Means of Electron Paramagnetic Resonance and UV-Vis Spectroscopy” ,\u00a0Journal of AOAC International,\u00a098 (4); 866-870; 2015<\/li>\n
- A. Smolinski, P. Kuna-Gwozdziewicz, M.J.\u00a0Laczny, A. Bak, ”\u00a0Study of the Polycyclic Aromatic Hydrocarbons Content in Gas Released From Burning Mine Waste Dump”,\u00a0Acta Chromatographica,\u00a027(2); 239-254; 2015<\/li>\n
- Ulahannan, Rajeev T; Panicker, C. Yohannan; Varghese, Hema Tresa (Musiol, Robert; Jampilek, JosefVan Alsenoy, Christian; War, Javeed Ahmad; Srivastava, S. K, „Molecular structure, FT-IR, FT-Raman, NBO, HOMO and LUMO, MEP, NLO and molecular docking study of 2-[(E)-2-(2-bromophenyl)ethenyl]quinoline-6-carboxylic acid”,\u00a0Spectrochomica Acta Part A-Molecular And Biomolecular Spectroscopy,\u00a0150; 190-199; 2015<\/li>\n
- W. Cieslik; M. Serda; R. Musiol, „Microwave-Assisted 1,3-dipolar Cycloadditions to Nitrogen Containing Heterocycles”,\u00a0Current Organic Chemistry,\u00a019(14); 1410-1427; 2015<\/li>\n
- Ulahannan, Rajeev T; Panicker, C. Yohannan; Varghese, Hema Tresa (Musiol, Robert; Jampilek, JosefVan Alsenoy, Christian; War, Javeed Ahmad; Al-Saadi, Abdulaziz A., „Vibrational spectroscopic and molecular docking study of (2E)-N-(4-chloro-2-oxo-1,2-dihydroquinolin-3-yl)-3-phenylprop-2-enamide”, \u00a0Spectrochomica Acta Part A-Molecular And Biomolecular Spectroscopy, 151; 335-349;\u00a02015<\/li>\n
- M. Or\u0142owska, K. Pytlakowska, A. Mrozek-Wilczkiewicz, R. Musio\u0142, M. Waksmundzka-Hajnos, M. Sajewicz T. Kowalska, „A comparison of antioxidant, antibacterial, and anticancer activity of the selected thyme species by means of hierarchical clustering and principal component analysis”,\u00a0Wiadomosci chemiczne, 3; 1-15; 2015<\/li>\n
- W. Cieslik, E. Spaczynska, K Malarz, D Tabak, E. Nevin, J. O’Mahony, A Coffey, A Mrozek-Wilczkiewicz, J. Jampilek, R. Musiol, „Investigation of the Antimycobacterial Activity of 8-hydroxyquinolines”,\u00a0Medicinal Chemistry,\u00a011; 771-779; 2015<\/li>\n
- J. Lampert,\u00a0J. Pola\u0144ski, „Nowe technologie on-line w dydaktyce chemii”,\u00a0Wiadomosci chemiczne,\u00a069; 125-147; 2015<\/li>\n<\/ol>\n
2014<\/strong><\/p>\n\n- West, C. E.; Scarlett, A. G.; Tonkin, A.; O’Carroll-Fitzpatrick, D.; Pureveen, J.; Tegelaar, E.; Gieleciak, R.; Hager, D.; Petersen, K.; Tollefsen, K.-E.; Rowland, S. J., „Diaromatic sulphur-containing 'naphthenic’ acids in process waters”, Water Research, \u00a051, \u00a0206-215, 2014<\/li>\n
- Kapkowski, M.; Bartczak, P.; Korzec, M.; Sitko, R.; Szade, J.; Balin, K.; Lelatko, J.; Polanski, J., ” SiO2-, Cu-, and Ni-supported Au nanoparticles for selective glycerol oxidation in the liquid phase”, Journal of Catalysis 319, 2014, 110-118, 2014<\/li>\n
- Korzec, M.; Bartczak, P.; Niemczyk, A.; Szade, J.; Kapkowski, M.; Zenderowska, P.; Balin, K.; Lelatko, J.; Polanski, J.,”Bimetallic nano-Pd\/PdO\/Cu system as a highly effective catalyst for the Sonogashira reaction” Journal of Catalysis, 313, 1-8, 2014<\/li>\n
- Serda, M.; Kalinowski, D. S.; Rasko, N.; Potuckova, E.; Mrozek-Wilczkiewicz, A.; Musiol, R.; Malecki, J. G.; Sajewicz, M.; Ratuszna, A.; Muchowicz, A.; Golab, J.; Simunek, T.; Richardson, D. R.; Polanski, J., „Exploring the Anti-Cancer Activity of Novel Thiosemicarbazones Generated through the Combination of Retro-Fragments: Dissection of Critical Structure-Activity Relationships”,\u00a0Plos One 9 (10), 2014<\/li>\n
- Bogocz, J.; Bak, A.; Polanski, J. „No free lunches in nature? An analysis of the regional distribution of the affiliations of Nature publications”,\u00a0Scientometrics 101 (1), 547-568, 2014<\/li>\n
- Musiol, R.; Mrozek-Wilczkiewicz, A.; Polanski, J., „Synergy Against Fungal Pathogens: Working Together is Better Than Working Alone” , Current Medicinal Chemistry, \u00a021 (7), \u00a0870-893, 2014<\/li>\n
- B. Das, H. Daver, M. Pyrkosz-Bulska, E. Persch, S.K. Barman, R. Mukherjee, E. Gumienna-Kontecka, M. Jarenmark, F. Himo, E. Nordlander, „A dinuclear zinc(II) complex of a new unsymmetric ligand with an N5O2 donor set; a structural and functional model for the active site of zinc phosphoesterases”,\u00a0Journal of Inorganic Biochemistry 132, 6-17,\u00a02014<\/li>\n
- Gumienna-Kontecka E., Pyrkosz-Bulska M., Szebesczyk A., Ostrowska M., „Iron chelating strategies in systemic metal overload, neurodegeneration and cancer”, Current Medicinal Chemistry 21, \u00a03741-3767, 2014<\/li>\n
- Krompiec, S.; Malarz, J.; Pietraszuk, C.; Powala, B.; Rogalski, S.; Malecki, J. G.; Penkala, M.; Filapek, M.; Musiol, R.; Jampilek, J.; Vejsova, M.; Polanski, J.; Paluch, M.; Pawlus, S.; Danikiewicz, W.; Kania, M.; Marcol, B.,”\u00a0New Strategy for the Synthesis of 3,4,5-trisubstituted Isoxazolines from Allyl Compounds”,\u00a0Current Organic Chemistry 18 (17), 2280-2296, 2014<\/li>\n
- Mrozek-Wilczkiewicz, A.; Serda, M.; Musiol, R.; Malecki, G.; Szurko, A.; Muchowicz, A.; Golab, J.; Ratuszna, A.; Polanski, J., „Iron Chelators in Photodynamic Therapy Revisited: Synergistic Effect by Novel Highly Active Thiosemicarbazones”,\u00a0Acs Medicinal Chemistry Letters 5 (4), 336-339, 2014<\/li>\n
- R.T. Ulahannan, Y.C. Panicker, H.T. Varghese, C. van Alsenoy, R. Musio\u0142, J. Jamp\u00edlek, P.L. Anto, „Vibrational Spectroscopic (FT-IR, FT-Raman, NBO, HOMO-LUMO, MEP) Investigations and Quantum Chemical Computational Study of 4-Hydroxy-2-oxo-1,2-dihydroquinoline-8-carboxylic acid”,\u00a0Spectrochimica \u00a0Acta A, 121, 404-414, 2014<\/li>\n
- Y.C. Panicker, R.T. Ulahannan, H.T. Varghese, C. van Alsenoy, R. Musio\u0142, J. Jamp\u00edlek, P.L. Anto, „Spectroscopic (FT-IR, FT-Raman) Investigations and Quantum Chemical Calculations of 4-Hydroxy-2-oxo-1,2-dihydroquinoline-7-carboxylic acid”; Spectrochimica Acta A, 121, 445-456, \u00a02014<\/li>\n
- \u00a0Bak, A.; Daszykowski, M.; Kaminski, Z.; Kiec-Kononowicz, K.; Kuder, K.; Fraczyk, J.; Kolesinska, B.; Ciosek, P.; Polanski, J. ”\u00a0Probing an Artificial Polypeptide Receptor Library Using a Series of Novel Histamine H3 Receptor Ligands”,\u00a0Combinatorial Chemistry & High Throughput Screening 17 (2), 141-156, 2014<\/li>\n
- Bak, A.; Wyszomirski, M.; Magdziarz, T.; Smolinski, A.; Polanski, J., „Structure-Based Modeling of Dye-Fiber Affinity with SOM-4D-QSAR Paradigm: Application to Set of Anthraquinone Derivatives”, Combinatorial Chemistry & High Throughput Screening 17 (6), 485-502, \u00a02014<\/li>\n
- \u00a0J. G.Malecki, A. Maron\u00b4, I. Gryca, M. Serda, „Characterization of a PdII complex with (E)-8-hydroxyquinoline-2-carbaldehyde O-benzyl oxime” Mendeleev Communications, 24( 1), 26-28, 2014<\/li>\n<\/ol>\n
2013<\/strong><\/p>\n\n- B. Machura, M. Wolff, W. Cie\u015blik, R. Musiol, „Novel oxorhenium(V) complexes of 8-hydroxyquinoline derivatives \u2013 Synthesis, spectroscopic characterization, X-ray crystal structures and DFT calculations”,\u00a0Polyhedron,\u00a051,263-274, 2013<\/li>\n
- W. Cieslik, M. Serda, A. Kurczyk, R. Musiol,”Microwave assisted synthesis of monoazanaphthalene scaffolds”,\u00a0Current Organic Chemistry,\u00a017(5), 491\u2013503, 2013<\/li>\n
- Bak A., Magdziarz T., Kurczyk A., Serafin K., Polanski J., „Probing a Chemical Space for Fragmental Topology-Activity Landscapes (FRAGTAL): Application for Diketo Acid and Catechol HIV Integrase Inhibitor Offspring Fragments”,\u00a0Comb. Chem. High Throughput Screen, 16(4), 274-287, 2013<\/li>\n
- Musiol R., „Quinoline-based HIV integrase inhibitors”,\u00a0Curr. Pharm. Des., 19, 1835-1849,\u00a02013<\/li>\n
- M. Serda, G. Malecki, A. Mrozek-Wilczkiewicz, R. Musiol, J. Polanski, „Microwave assisted synthesis, X-ray crystallography and DFT calculations of selected aromatic thiosemicarbazones”,\u00a0J. Mol. Struct., 1037, 63-72,\u00a02013<\/li>\n
- J.E. Nycz, G.J. Malecki, „Synthesis, spectroscopy and computational studies of selected hydroxyquinoline carboxylic acids and their selected fluoro-, thio-, and dithioanalogues”,\u00a0J. Mol. Struct.,\u00a01032, 159\u2013168, 2013<\/li>\n
- W. Cieslik, R. Musiol, J.E. Nycz, J. Jampilek, M. Vejsova, M. Wolff, B. Machura, J. Polanski, „Contribution to Investigation of Antimicrobial Activity of Styrylquinolines”,\u00a0Bioorg. Med. Chem.,\u00a020, 6960\u20136968, 2013<\/li>\n
- J.G. Malecki, J. Nycz, „Ruthenium(II) hydridecarbonyl complex with N,N\u2019-bis(2-pyridyl)thiourea as co-ligand”,\u00a0Polyhedron,\u00a055, 49\u201356, 2013<\/li>\n
- W. Przychodzen, J.E. Nycz, Y.-J. Nam, D.-U. Lee, „Cytotoxic and Antioxidant Activities of Benzohydroxamic Acid Analogues”,\u00a0Bull. Korean Chem. Soc.,\u00a034, 10, 3098\u20133100, 2013<\/li>\n
- Biswanath Das, Henrik Daver, Monika Pyrkosz-Bulska, Elke Persch, Suman K. Barman, Rabindranath Mukherjee, Elzbieta Gumienna-Kontecka, Martin Jarenmark, Fahmi Himo, Ebbe Nordlander, „A dinuclear Zinc(II) complex of a new unsymmetric ligand with an N5O2 donor set; a structural and functional model for the active site of zinc phosphotriesterase”,\u00a0Journal of Inorganic Biochemistry,\u00a0http:\/\/dx.doi.org\/10.1016\/j.jinorgbio.2013.08.001,\u00a0<\/a><\/li>\n
- Mainak Mitra, Reena Singh, Monika Pyrkosz-Bulska, Matti Haukka, \u00a0Elzbieta Gumienna-Kontecka, Ebbe Nordlander, „A new bis(\u00b5-phenoxo)bridged dizinc complex with hydrolytic activity”,\u00a0Z. Anorg. Allg. Chem.,\u00a0639, (8-9),1534\u20131542, 2013<\/li>\n
- West CE, Scarlett AG, Tonkin A, O’Carroll-Fitzpatrick D, Pureveen J, Tegelaar E, Gieleciak R, Hager D, Petersen K, Tollefsen KE, Rowland SJ., „Diaromatic sulphur-containing 'naphthenic’ acids in process waters”, Water Research,\u00a0http:\/\/dx.doi.org\/10.1016\/j.watres.2013.10.058<\/a><\/li>\n
- Jones D, Scarlett AG, West CE, Frank RA, Gieleciak R, Hager D, Pureveen J, Tegelaar E, Rowland SJ., „Elemental and spectroscopic characterization of fractions of an acidic extract of oil sands process water”,\u00a0Chemosphere,\u00a0\u00a093,( 9), 1655\u20131664, 2013<\/li>\n
- Knas, M.; Szeremeta, D.; Polanski, J.; et al., „Specific Mobility of Selected Phytochemicals in Thin-Layer Chromatographic Systems and its Possible Relevance to Pharmacokinetics”,\u00a0Acta Chromatographica,\u00a025 \u00a0( 4 ) 765-776, 2013<\/li>\n
- Polanski, Jaroslaw; Sajewicz, Mieczyslaw; Knas, Magdalena; et al., „Polarimetric Detection in HPLC of R(-)-Naproxen: Features and Intrinsic Weakness”,\u00a0Journal of Chromatographic Science \u00a051 ( 4 ), 349-354, 2013<\/li>\n<\/ol>\n
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Patents:<\/strong>\u00a0<\/strong><\/p>\n\n- M. Kapkowski, T. Siudyga, J. Pola\u0144ski, A. Niemczyk-Wojdy\u0142a; Spos\u00f3b regeneracji katalizator\u00f3w SCR w pe\u0142ni lub w cz\u0119\u015bci zdezaktywowanych oraz spos\u00f3b utylizacji zu\u017cytych po regeneracji roztwor\u00f3w oczyszczaj\u0105cyc<\/em>h; Patent Polski nr. P.428501; 2019<\/li>\n
- M. Kapkowski, W. Ambro\u017ckiewicz, T. Siudyga, J. Pola\u0144ski; Spos\u00f3b otrzymywania cyklicznych acetali w reakcji alkoholi z ketonami<\/em>; Patent Polski nr. P.415982; 2016<\/li>\n
- M. Kapkowski, T. Siudyga, M. S\u0142ota, J. Bogocz, J. Pola\u0144ski; Spos\u00f3b otrzymywania 1-hydroksyacetonu w reakcji dehydratacji gliceryny<\/em>; Patent Polski nr. P.412213; 2015<\/li>\n
- M. Kapkowski, M. S\u0142ota, J. Bogocz, J. Pola\u0144ski, J. Popiel, K. Czerny; Spos\u00f3b utylizacji alkoholi dihydroksylowych do kwasu octowego<\/em>; Patent Polski nr. P.412263; 2015<\/li>\n
- M. Kapkowski, M. S\u0142ota, J. Bogocz, J. Pola\u0144ski, J. Popiel, K. Czerny; Spos\u00f3b utylizacji alkoholi monohydroksylowych do kwasu octowego<\/em>; Patent Polski nr. P.412262; 2015<\/li>\n
- M. Kapkowski, M. Korzec, P. Bartczak, J. Pola\u0144ski; Spos\u00f3b utylizacji gliceryny do kwasu octowego<\/em>, Patent Polski nr. P.407235; 2014.<\/li>\n
- M. Korzec, P. Bartczak, J. Pola\u0144ski, M. Kapkowski; Nanokatalizator Pd\/Cu, spos\u00f3b jego otrzymywania oraz zastosowanie<\/em>, Patent Polski nr. P.405268; 2013.
\n<\/strong><\/li>\n<\/ul>\nPatent applications:<\/strong>\u00a0<\/strong><\/p>\n\n- T. Siudyga, J. Pola\u0144ski, M. Kapkowski, P. Bartczak; Spos\u00f3b katalitycznej konwersji tlenku lub dwutlenku w\u0119gla do metanu oraz z\u0142o\u017ce katalityczne do realizacji tego sposobu<\/em>; Polskie zg\u0142oszenie patentowe nr. P.432591; 2020<\/li>\n
- Maciej Kapkowski, Micha\u0142 Ludynia, Jaros\u0142aw Pola\u0144ski, Marzena Dzida, Ma\u0142gorzata Rudnicka, Katarzyna Balin, Martin Dole\u017eal, Petr Kastner; Kompozycja poprawiaj\u0105ca penetracj\u0119 substancji biologicznie aktywnych przez powierzchnie organ\u00f3w ro\u015blinnych<\/em>; Polskie zg\u0142oszenie patentowe nr. P.430248; 2019<\/li>\n
- M. Kapkowski, M. Ludynia, J. Pola\u0144ski, M. Dzida, M. Rudnicka, K. Balin, M. Dole\u017eal, P. Kastner; Sm\u011bs zlep\u0161uj\u00edc\u00ed penetraci biologicky aktivn\u00edch l\u00e1tek povrchem rostlinn\u00fdch org\u00e1n\u016f<\/em>; Czeskie zg\u0142oszenie patentowe nr. PV 2019-614, 2019<\/li>\n
- M. Kapkowski, T. Siudyga, J. Pola\u0144ski, A. Niemczyk-Wojdy\u0142a; Zp\u016fsob regenerace zcela nebo \u010d\u00e1ste\u010dn\u011b deaktivovan\u00fdch katalyz\u00e1tor\u016f SCR a zp\u016fsob vyu\u017eit\u00ed \u010distic\u00edch roztok\u016f pou\u017eit\u00fdch p\u0159i regeneraci<\/em>; Czeskie zg\u0142oszenie patentowe nr. PV 2019-523, 2019<\/li>\n
- M. Kapkowski, T. Siudyga, J. Pola\u0144ski, A. Niemczyk-Wojdy\u0142a; Sp\u00f4sob regener\u00e1cie \u00faplne alebo \u010diasto\u010dne deaktivovan\u00fdch katalyz\u00e1torov SCR a sp\u00f4sob vyu\u017eitia \u010distiacich roztokov pou\u017eit\u00fdch pri regener\u00e1cii<\/em>; S\u0142owackie zg\u0142oszenie patentowe nr. PP 50041-2019, 2019<\/li>\n
- M. Kapkowski, W. Ambro\u017ckiewicz, J. Popiel, J. Pola\u0144ski, M. Dzida, E. Zor\u0119bski, M. Musia\u0142, T. Siudyga; Spos\u00f3b otrzymywania cyklicznych acetali lub ich mieszanin oraz ich zastosowanie jako dodatk\u00f3w do paliw<\/em>; Polskie zg\u0142oszenie patentowe nr. P.423287; 2017<\/li>\n
- J. Pola\u0144ski, P. Bartczak, M. Korzec, M. Kapkowski; Spos\u00f3b otrzymywania struktur zawieraj\u0105cych cz\u0105stki o rozmiarach nanometrycznych i\/lub submikrometrycznych na r\u00f3\u017cnych no\u015bnikach<\/em>, Polskie zg\u0142oszenie patentowe nr. P.405270; 2013.<\/li>\n<\/ul>\n
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