- Łukasz Wachnicki

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Affiliation:


Polish Academy of Sciences, Institute of Physics

address: al. Lotników 32/46, Warszawa, 02-668, Poland
phone: +48-22-8436601
fax: +48-22-8430926
web: http://www.ifpan.edu.pl

Participant:


E-MRS Fall Meeting 2009

began: 2010-09-14
ended: 2010-09-18
Presented:

E-MRS Fall Meeting 2009

Dimethylzinc and diethylzinc as precursors for monocrystalline zinc oxide grown by Atomic Layer Deposition

E-MRS Fall Meeting 2009

Thin films of ZnS and ZnSe by Atomic Layer Deposition for light sensor applications

Participant:


IX Krajowe Sympozjum Użytkowników Promieniowania Synchrotronowego

began: 2011-09-26
ended: 2011-09-27
Presented:

Participant:


17th International Conference on Crystal Growth and Epitaxy - ICCGE-17

began: 2013-08-11
ended: 2013-08-16
Presented:

17th International Conference on Crystal Growth and Epitaxy - ICCGE-17

Epitaxial growth and characterization of zinc oxide nanorods obtained by the hydro-thermal method

Publications:


  1. Contactless electroreflectance of ZnSe layers grown by atomic layer epitaxy
  2. Dimethylzinc and diethylzinc as precursors for monocrystalline zinc oxide grown by Atomic Layer Deposition
  3. Electrical and optical properties of zinc oxide layers obtained by Atomic Layer Deposition
  4. Epitaxial growth and characterization of zinc oxide nanorods obtained by the hydro-thermal method
  5. Growth of zinc oxide and dielectric films using Atomic Layer Deposition method from organic precursors
  6. Hydrothermal growth of ZnO nanorods for solar cells applications
  7. Resonant photoemission study of Sm atoms on ZnO surface
  8. Rezonansowe badania fotoemisyjne ferromagnetycznych warstw ZnCoO
  9. Tb3+ ion luminescence enhancement in yttria host lattice obtained via microwave hydrothermal process
  10. The effect of annealing on properties of Europium doped ZnO nanopowders obtained by a microwave hydrothermal method
  11. Thin films of ZnS and ZnSe by Atomic Layer Deposition for light sensor applications
  12. Zinc oxide grown by Atomic Layer Deposition - a material for novel 3D electronics
  13. ZnO thin films for organic/inorganic heterojunctions



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