Wykaz publikacji wybranego autora

Katarzyna Lejda, dr inż.

poprzednio: Kapusta

adiunkt

Wydział Energetyki i Paliw
WEiP-ktp, Katedra Technologii Paliw


  • 2018

    [dyscyplina 1] dziedzina nauk inżynieryjno-technicznych / inżynieria chemiczna


Identyfikatory Autora Informacje o Autorze w systemach zewnętrznych

ORCID: 0000-0002-5486-5283 orcid iD

ResearcherID: GDB-2542-2022

Scopus: 57192094827

PBN: 5e709298878c28a047398aea

OPI Nauka Polska

System Informacyjny AGH (SkOs)





Liczba pozycji spełniających powyższe kryteria selekcji: 62, z ogólnej liczby 64 publikacji Autora


1
  • 3 months insight into the oxidation in air of semiconductor Cu2ZnSnS4 nanopowders made via high energy ball milling of copper alloys
2
  • 6 month-long insight into the oxidation in air of semiconductor $Cu_{2}ZnSnS_{4}$ nanopowders
3
  • Approach to make Kesterite quantum dots – a perspective material for photovoltaics
4
  • Approaching mechanochemical synthesis of kesterite – a prospective solar cell material
5
  • Badania termograwimetryczne nanoproszkowego kesterytu $Cu_{2}ZnSnS_{4}$ uzyskanego na drodze mechanochemicznej syntezy z wybranych siarczków metali
6
  • Bezdodatkowe, wysokotemperaturowe i wysokociśnieniowe spiekanie wytworzonej \emph {in situ} mieszaniny nanoproszków GaN i AlN
7
  • Characteristics of various mixed nitride nanopowders in the system gallium nitride GaN/aluminium nitride AlN for sintering towards composite semiconducting nitride nanoceramics
8
  • Composite nitride nanoceramics in the system titanium nitride $(TiN)-aluminum$ nitride (AlN) through high pressure and high temperature sintering of synthesis-mixed nanocrystalline powders
9
  • Convenient two-step analysis of adventitious surface-bound and bulk oxygen contents in the metal and sulfide precursors to semiconductor kesterite $Cu_{2}ZnSnS_{4}$
10
  • Direct oxygen content determinations in various non-oxide inorganic substrates used for the mechanochemical preparation of kesterite $Cu_{2}ZnSnS_{4}$ semiconductor
11
  • Effect of kesterite oxidation in the ambient air on its semiconductor properties - study of kesterite nanopowders from three different precursor systems
12
  • Elaboration of analytical methodology for direct determination of non-intentional oxygen contents in the semiconductor kesterite $Cu_{2}ZnSnS_{4}$ nanopowders
13
14
  • From magnetic cubic pre-kesterite to semiconducting tetragonal kesterite $Cu_{2}ZnSnS_{4}$ via mechanochemical synthesis route
15
  • GaAlN binary nitride solid solution as a potential material for highly efficient white light sources
16
  • Heavy metal removal from fly ash by ball milling
17
  • High energy ball milling of mixtures of nanocrystalline powders of gallium nitride GaN and aluminum nitride AlN
18
  • Infrared FT-IR insight into prolonged exposure to ambient air of semiconductor kesterite $Cu_{2}ZnSnS_{4}$ nanopowders prepared via mechanochemical synthesis route
19
  • Investigations of short range ordering in the mechanochemically synthesized kesterite nanopowders
20
  • Long-term oxidation susceptibility in ambient air of the semiconductor kesterite $Cu_2ZnSnS_4$ nanopowders made by mechanochemical synthesis method
21
  • Magnetic vs. semiconducting properties of kesterite Cu2ZnSnS4 prepared by mechanochemically assisted route from metal sulfides and sulfur
22
  • Magnetism of kesterite $Cu_{2}ZnSnS_{4}$ semiconductor nanopowders prepared by mechanochemically assisted synthesis method
23
  • Mechanical and structural properties of nitride nanoceramics sintered from in situ made nanopowders of AlN, GaN, and AlxGa1-xN
24
  • Mechanical properties of the composite nanoceramics prepared from in-situ made nanopowders in the system aluminum nitride AIN/gallium nitride GaN
25
  • Mechanochemically assisted synthesis of kesterite $Cu_{2}ZnSnS_{4}$ nanopowders for photovoltaic applications \emph{via} copper alloys formation