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ZB 16 - Dynamics of nanocrystal structure induced by surface chemistry (Z.Kaszkur)

Research

List of principal methodology publications.

  1. Smirnov I., Kaszkur Z., Hoell A., Development of nanoparticles bulk morphology analysis: Multidomain XRD approach. Smirnov I., Kaszkur Z., Hoell A., Nanoscale (2023), 15, 8633; https://doi.org/10.1039/d3nr00456b.

  2. Zieliński M., Kaszkur Z., Juszczyk W., and Sobczak J.W., In situ diffraction monitoring of nanocrystals structure evolving during catalytic reaction at their surface. Sci.Rep. (2023), 13, 1469; https://www.nature.com/articles/s41598-023-28557-5 .

  3. Kaszkur Z., Zieliński M., Juszczyk Z., The real background and peak asymmetry in diffraction on nanocrystalline metals. J. Appl. Cryst. (2017), 50, 585-593.

  4. Kaszkur Z., Juszczyk W., Łomot D., Self-diffusion in nanocrystalline alloys, Phys. Chem. Chem. Phys., (2015), 17, 28250-28255.

  5. Kaszkur Z., Rzeszotarski P., Juszczyk W., Powder Diffraction in studies of nanocrystal surfaces - chemisorption on Pt. J.Appl.Cryst., (2014), 47, 2069-2077.

  6. Kaszkur Z., Mierzwa B., Juszczyk W.,Rzeszotarski P., Łomot D., Quick low temperature coalescence of Pt nanocrystals on silica exposed to NO- the case of reconstruction driven growth? RSC Adv ., (2014), 4(28), 14758 – 14765.

  7. Rzeszotarski P., Kaszkur Z., "Surface reconstruction of Pt nanocrystals interacting with gas atmosphere. Bridging the pressure gap with in situ diffraction". Phys.Chem.Chem.Phys., (2009), 11, 5416 - 5421.

  8. Kaszkur Z., "Test of applicability of some powder diffraction tools to nanocrystals". Z. Krist. (2006), 23, 147-154.

  9. Kaszkur Z., Mierzwa B., Pielaszek J., "Ab initio test of the Warren-Averbach analysis on model palladium nanocrystals". J. Appl. Cryst. (2005), 38, 266-273.

  10. Kaszkur Z., "Direct observation of chemisorption induced changes in concentration profile in Pd-Au alloy nanosystems via in situ X-ray powder diffraction". Phys. Chem. Chem. Phys. (2004), 6, 193-199.

  11. Kaszkur Z., "Nanopowder diffraction analysis beyond the Bragg law applied to Palladium". J. Appl. Cryst. (2000), 33, 87-94.

  12. Kaszkur Z., "Powder Diffraction beyond the Bragg law: study of palladium nanocrystals". J. Appl. Cryst. (2000), 33, 1262-1270.

  13. Kaszkur Z.A., Mierzwa B., Segregation in model palladium-cobalt clusters, Phil. Mag. A (1998), 77, 781-800.

  14. Kaszkur Z., General Approach to the Radial Distribution Function Analysis of Solid Carbons,.Fuel (1990), 69, 834-839.

  15. Kaszkur Z., Convolutional Approach to the Normalisation of Intensity Scattered by Polycrystalline Substances, J.Appl.Cryst. (1990), 23 ,180-185.

  16. Kaszkur Z., The Influence of the Texture on Radial Distribution Function of Solid Carbons, J.Appl.Cryst. (1989), 22 (3), 205.

  17. Kaszkur Z., Stachurski J., Pielaszek J., X-Ray Diffraction Study of the Palladium-Carbon System, J.Phys.Chem.Solids (1986), 47 ,795.


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