Publications and conferences

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

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

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

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

J. Prywer, The fascinating world of biogenic crystals, Science 376(6590), 240-241, 2022

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

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

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

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

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

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

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

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

J. Prywer, L. Sieroń, A. Czylkowska, Struvite Grown in Gel, Its Crystal Structure at 90 K and Thermoanalytical Study, Crystals 9(2), 89, 2019

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

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

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

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

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

J. Prywer, M. Olszyński, Bacterially Induced Formation of Infectious Urinary Stones: Recent Developments and Future Challenges, Curr. Med. Chem. 24(3), 292-311, 2017