Jolanta Prywer
prof. Jolanta Prywer
Professor
+48 42 631 36 53 Lab. +48 42 631 39 24
jolanta.prywer@p.lodz.pl
0000-0001-5161-2785
Leader of Biogenic Crystals Research Group
Research Interests
- Evolution of crystal morphology
Latest publications
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J. Prywer, A. Torzewska, E. Mielniczek-Brzóska, Understanding the role of zinc ions on struvite nucleation and growth in the context of infection urinary stones, Metallomics 16(5), mfae017, 2024
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R. Cabassi, D. Delmonte, J. Prywer, Experimental evidence of the pyroelectric nature of struvite, Crystengcomm, 2024
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K. Pernal, Ł. Kołodziejczyk, R. J. J. Riobóo, J. Prywer, Experimental–computational approach to investigate elastic properties of struvite, J. Chem. Phys. 158(24), 244501, 2023
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J. Prywer, A. Torzewska, M. Cichomski, P. P. Michałowski, Insights into the physical and chemical properties of struvite crystal surfaces in terms of the effectiveness of bacterial adhesion, Sci. Rep. 13(1), 5557, 2023
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C. Singh, J. Prywer, D. Yadav, On the Three-Dimensional Morphology of In Situ Grown TiB2 Particles in Molten Aluminum, J. Mater. Eng. Perform., 2023
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M. Skubisz, A. Torzewska, E. Mielniczek-Brzóska, J. Prywer, Consumption of soft drinks rich in phosphoric acid versus struvite crystallization from artificial urine, Sci. Rep. 12(1), 14332, 2022
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J. Prywer, The fascinating world of biogenic crystals, Science 376(6590), 240-241, 2022
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J. Prywer, R. Kruszyński, M. Świątkowski, A. Soszyński, D. Kajewski, K. Roleder, First experimental evidence of the piezoelectric nature of struvite, Sci. Rep. 11(1), 14860, 2021
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D. Sidorczuk, M. Kozanecki, B. Civalleri, K. Pernal, J. Prywer, Structural and Optical Properties of Struvite. Elucidating Structure of Infrared Spectrum in High Frequency Range, J. Phys. Chem. A 124(42), 8668-8678, 2020
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J. Prywer, D. Delmonte, M. Solzi, F. Cugini, K. Roleder, A. Soszyński, A. Ciżman, J. K. Zaręba, First Experimental Evidences of the Ferroelectric Nature of Struvite, Cryst. Growth Des. 20(7), 4454-4460, 2020
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J. Prywer, A. Torzewska, Publisher Correction: Aggregation of poorly crystalline and amorphous components of infectious urinary stones is mediated by bacterial lipopolysaccharide, Sci. Rep. 10(1), 1516, 2020
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D. Sidorczuk, M. Kozanecki, B. Civalleri, K. Pernal, J. Prywer, Structural and Optical Properties of Struvite. Elucidating Structure of Infrared Spectrum in High Frequency Range, J. Phys. Chem. A 124, 8668–8678, 2020
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J. Prywer, D. Delmonte, M. Solzi, F. Cugini, K. Roleder, A. Soszyński, A. Ciżman, J. K. Zaręba, First Experimental Evidences of the Ferroelectric Nature of Struvite, Cryst. Growth Des. 20, 4454−4460, 2020
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J. Prywer, E. Mielniczek-Brzóska, Effect of (−)-Epicatechin on Poorly Crystalline and Amorphous Precipitate. The Role of Green Tea Compound in the Formation of Infectious Urinary Stones, Cryst. Growth Des. 20(1), 148-156, 2019
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J. Prywer, A. Torzewska, Aggregation of poorly crystalline and amorphous components of infectious urinary stones is mediated by bacterial lipopolysaccharide, Sci. Rep. 9(1), 17061, 2019
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J. Prywer, L. Sieroń, A. Czylkowska, Struvite Grown in Gel, Its Crystal Structure at 90 K and Thermoanalytical Study, Crystals 9(2), 89, 2019
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J. Prywer, E. Mielniczek-Brzóska, Formation of Poorly Crystalline and Amorphous Precipitate, a Component of Infectious Urinary Stones: Role of Tetrasodium Pyrophosphate, Cryst. Growth Des. 19(2), 1048-1056, 2019
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J. Prywer, A. Torzewska, Impact of bacteria on aggregation of crystalline and amorphous components of infectious urinary stones, J. Cryst. Growth 506, 71-78, 2019
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J. Prywer, Comment on “Growth mechanism of in-situ WC grain in Fe-Ni-W-C alloys system”, J. Alloys Compd. 751, 335-336, 2018
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J. Prywer, M. Kozanecki, E. Mielniczek-Brzóska, A. Torzewska, Solid Phases Precipitating in Artificial Urine in the Absence and Presence of Bacteria Proteus mirabilis—A Contribution to the Understanding of Infectious Urinary Stone Formation, Crystals 8(4), 164, 2018
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J. Prywer, M. Olszyński, E. M. Brzóska, Green Tea and Struvite Crystals in Relation to Infectious Urinary Stones: The Role of (−)-Epicatechin, Cryst. Growth Des. 17(11), 5953-5964, 2017
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J. Prywer, M. Olszyński, Bacterially Induced Formation of Infectious Urinary Stones: Recent Developments and Future Challenges, Curr. Med. Chem. 24(3), 292-311, 2017
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J. Prywer, E. Mielniczek-Brzóska, Chemical equilibria of complexes in urine. A contribution to the physicochemistry of infectious urinary stone formation, Fluid Phase Equilib. 425, 282-288, 2016
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M. Olszyński, J. Prywer, E. M. Brzóska, Inhibition of Struvite Crystallization by Tetrasodium Pyrophosphate in Artificial Urine: Chemical and Physical Aspects of Nucleation and Growth, Cryst. Growth Des. 16(6), 3519-3529, 2016
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J. Prywer, D. Kasprowicz, T. Runka, Temperature-dependent μ-Raman investigation of struvite crystals, Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy 158, 18-23, 2016
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J. Prywer, M. Olszyński, R. R. Sadowski, Struwit i węglan apatytu jako biogeniczne fazy stałe indukowane do wzrostu przez drobnoustroje, Postępy Fizyki 67, 68–82, 2016
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J. Prywer, E. Mielniczek-Brzóska, Chemical equilibria of complexes in urine. A contribution to the physicochemistry of infectious urinary stone formation, Fluid Phase Equilib. 425, 282−288, 2016
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M. Olszyński, J. Prywer, E. Mielniczek-Brzóska, Inhibition of Struvite Crystallization by Tetrasodium Pyrophosphate in Artificial Urine: Chemical and Physical Aspects of Nucleation and Growth, Cryst. Growth Des. 16, 3519−3529., 2016
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J. Prywer, D. Kasprowicz, T. Runka, Temperature-dependent μ-Raman investigation of struvite crystals, Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy 158, 18–23, 2016
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J. Prywer, M. Olszyński, E. Mielniczek-Brzóska, Inhibition of precipitation of carbonate apatite by trisodium citrate analysed in base of the formation of chemical complexes in growth solution, J. Solid State Chem. 231, 80-86, 2015
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M. Olszyński, J. Prywer, A. Torzewska, Effect of Size and Shape of Nanosilver Particles on Struvite and Carbonate Apatite Precipitation, Cryst. Growth Des. 15(7), 3307-3320, 2015
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J. Prywer, E. Mielniczek-Brzóska, M. Olszyński, Struvite crystal growth inhibition by trisodium citrate and the formation of chemical complexes in growth solution, J. Cryst. Growth 418, 92-101, 2015
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J. Prywer, R. R. Sadowski, A. Torzewska, Aggregation of Struvite, Carbonate Apatite, and <i>Proteus mirabilis</i> as a Key Factor of Infectious Urinary Stone Formation, Cryst. Growth Des. 15(3), 1446-1451, 2015
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J. Prywer, R. R. Sadowski, A. Torzewska, "Aggregation of Struvite, Carbonate Apatite, and Proteus mirabilis as a Key Factor of Infectious Urinary Stone Formation, Cryst. Growth Des. 15, 1446–1451, 2015
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J. Prywer, E. Mielniczek-Brzóska, M. Olszyński, Struvite crystal growth inhibition by trisodium citrate and the formation of chemical complexes in growth solution, J. Cryst. Growth 418, 92–101, 2015
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J. Prywer, M. Olszyński, A. Torzewska, E. Mielniczek-Brzóska, Comparative in vitro studies on disodium EDTA effect with and without Proteus mirabilis on the crystallization of carbonate apatite and struvite, J. Cryst. Growth 395, 123-131, 2014
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R. R. Sadowski, J. Prywer, A. Torzewska, Morphology of struvite crystals as an evidence of bacteria mediated growth, Cryst. Res. Technol. 49(7), 478-489, 2014
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R. R. Sadowski, J. Prywer, A. Torzewska, Morphology of struvite crystals as an evidence of bacteria mediated growth, Cryst. Res. Technol. 49, 478–489, 2014
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J. Prywer, M. Olszyński, A. Torzewska, E. Mielniczek-Brzóska, Comparative in vitro studies on disodium EDTA effect with and without Proteus mirabilis on the crystallization of carbonate apatite and struvite, J. Cryst. Growth 395, 123-131, 2014
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J. Prywer, M. Olszyński, Influence of disodium EDTA on the nucleation and growth of struvite and carbonate apatite, J. Cryst. Growth 375, 108-114, 2013
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