Bogdan F. Palosz



Polish Academy of Sciences, Institute of High Pressure Physics

address: Sokolowska 29/37, Warszawa, 01-142, Poland
phone: +48-22-6324302
fax: +48-22-6324218


NANO Ceramics and Grain Boundaries Lab

began: 1998-01-01


High Pressure School 1999 (3rd)

began: 1999-09-13
ended: 1999-09-17


High Pressure School 2001 (4th)

began: 2001-06-22
ended: 2001-06-25


E-MRS Fall Meeting 2005

began: 2005-09-05
ended: 2005-09-09

E-MRS Fall Meeting 2005

Structure of nano-crystals: a key to understanding the unique properties of nano-materials



began: 2008-09-01
ended: 2008-09-01


11th European Powder Diffraction Conference

began: 2008-09-19
ended: 2008-09-22


Warsaw and Karlsruhe Nanotechnology Day

began: 2011-09-22
ended: 2011-09-22


Perspectives of Nanoarchitecture

began: 2017-08-28
ended: 2017-08-28


  1. A Model of Strain Distribution in Nanocrystalline SiC and Diamond at very High Pressures, in-situ X-ray Diffraction Study and Computer Modeling
  2. Analysis of density waves in CdSe, SiC, and diamond nanocrystals by application of NanoPDF software package to experimental Pair Distribution Functions.
  3. Analysis of short and long range atomic order in nanocrystalline diamonds with application of powder diffractometry
  4. Application of powder diffraction methods to the analysis of the atomic structure of nanocrystals: the concept of the apparent lattice parameter (alp)
  5. Application of Vacuum Chamber for Synchrotron Powder Diffraction
  6. Application of X-ray powder diffraction to nano-materials; determination of the atomic structure of nanocrystals with relaxed and strained surfaces
  7. Are nanocrystalline powders two-phase materials: predictions and experimental evidence
  8. Atomic structure of nanocrystals and in situ synthesis x-ray studies of nanocomposites
  9. Badania własności termicznych nanokryształów metodami dyfraktometrycznymi
  10. Change of microstructure of nanocrystalline SiC and diamond powders in high-pressure high-temperature conditions
  11. Change of microstructure of nanocrystalline SiC powder in high-pressure
  12. Characterization of nanostructured hydroxyapatite ceramics densified at high-pressure and temperature
  13. Determination of a two-phase structure of nanocrystals: GaN, SiC, diamond
  14. Diffraction studies of nanocrystals: theory and experiment
  15. Dislocation induced polytype transformation of GaN nanocrystals under extreme pressures
  16. Distribution of strain in GaN and SiC nanocrystals under extreme pressures
  17. Distribution of strain in GaN and SiC nanocrystals under extreme pressures
  18. Dyfraktometryczna analiza mikro- i makro-naprężeń w spiekach i kompozytach otrzymanych pod wysokim ciśnieniem i wysoką temperaturą.
  19. Effect of the chemical state of the surface on the relaxation of the surface shell atoms in SiC and GaN nanocrystals
  20. Evolution of Disordering in SiC under High Pressure High Temperature Conditions: In-situ Powder Diffraction Study
  21. Evolution of Microstructure of Nanocrystalline SiC under High Pressure
  22. Examination of the atomic Pair Distribution Function (PDF) of SiC nanocrystals by in-situ high pressure diffraction
  23. Generation and relaxation of microstrains in GaN nanocrystals under extreme pressures
  24. Generetion and Relaxation of Strain in SiC and GaN under Extreme Pressure
  25. Grain Boundaries Harder Than Diamond
  26. High Pressure Diffraction Studies of Flame-generated Silicon Carbide Powders
  27. High-Pressure High-Temperature in-situ Diffraction Studies of Nanocrystalline Ceramic Materials at HASYLAB
  28. High Pressure Investigations of Gallium and Indium Nitrides
  29. High pressure x-ray powder diffraction application to studies of nanocrystals
  30. Influence of high pressure on the polytype structure of nanocrystalline GaN
  31. In-situ Diffraction Studies of Nanocrystalline Materials under High Pressures
  32. Investigation of the microstructure of SiC-Zn nanocomposites by microscopic methods: SEM, AFM and TEM
  33. Looking at the real structure of nanocrystals with powder diffraction: the apparent lattice parameter approach
  34. Looking beyond limitations of diffraction methods of structural analysis of nanocrystalline materials
  35. Melting Temperatures of Metals under High Pressure in MAX80 cubic anvil press
  36. Microstructure Investigation in Nanocrystalline SiC by X-ray Diffraction and Simulation of Diffraction Pattern
  37. Modelling of Strain Distribution in Non-hydrostatically Pressed Nanocrystalline SiC, In-situ Diffraction Study
  38. Nanocrystalline diamond: Structure of bulk and grain boundary as a function of particle size, Experiment number: HS-821, Beamline: ID11
  39. Nanocrystalline silicon carbide: Structure of bulk and grain boundary as a function of particle size, Experiment number: 01-01-189, Beamline: BM01B
  40. Nanokompozyty diamentu i SiC z Al otrzymane metod? strefowego nasycania nanokryszta?ów faz? ciek?? pod wysokim ci?nieniem
  41. Neutron and X-ray Investigations of Crystallite and Particle Size Distribution in Nanomatric Silicon Carbide
  42. MD simulation of atomic structure of nanocrystals

  43. Nanocrystalline SiC compacts obtained by sintering of laser synthesized nanopowders under extreme pressures

  44. Powder precursors for nanoceramics: cleaning and compaction
  45. Preparation of SiC-Diamond Composites
  46. Preparation of SiC-Diamond Nanocomposites
  47. SiC-Zn nanocomposites obtained using high-pressure infiltration technique

  48. Structure of nano-crystals: a key to understanding the unique properties of nano-materials

  49. Synthesis and properties of GaAs nano-composites

  50. Simultaneous Analysis of the Small- and Wide-Angle Scattering from Nanometric SiC Based on the ab initio Pattern Simulation
  51. Sintering and Properties of Nanocrystalline Diamond Compacts without a Sintering Agent
  52. Sintering of Compacts from Nanocrystalline Diamonds Without Sintering Agent
  53. Size dependent compressibility of nanocrystalline SiC measured under isostatic pressure conditions
  54. Strain Distribution in nanocrystalline Silicon Carbide by X-ray Diffraction and Structure Modeling
  55. Strain in Nanocrysttaline Powders of GaN and SiC as Measured by X-ray Diffraction
  56. Structural and luminescence properties of yttrium-aluminum garnet (YAG) nanoceramics
  57. Surface Diffraction Effects from Nanopowders under Pressure
  58. Surface relaxation in Nanocrystalline Powders of GaN as Measured by X-ray Diffraction
  59. Surface strain in nanocrystalline GaN and SiC; x-ray diffraction study
  60. Sythesis of metal-ceramic nanocomposites by high-pressure infiltration
  61. Thermal Expansion of Diamond-SiC nanocomposites
  62. Transformation of fractal microstructure of nanocrystalline SiC and diamond in high pressures - Small Angle Scattering Study
  63. X-Ray Characterization of Nanostructured Materials
  64. X-ray diffraction studies of thermal properties of bulk- and surface-atoms of nanocrystalline SiC
  65. X-ray powder diffraction study of atomic structure of nanocrystalline materials


60 proper references found in the database.
Note that the list is for testing purposes and certainly incomplete!

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