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Colloidal oxide perovskite nanocrystals : synthesis, optimization & applications

(2021)
Author
Promoter
(UGent) , (UGent) and Jonathan De Roo
Organization
Project
Abstract
Nanocrystals may find applications in the improvement of current traditional materials and the research of new functionalities. Despite the number of described synthetic routes, a general strategy covering from preparation to industrial manufacturing implementation is still lacking. In this thesis, the synthesis of a variety of oxide perovskite nanocrystals is investigated. Attention is not only drawn into the control over the nanocrystal size but also in the preparation of stable colloidal nanocrystal solutions. This allowed the implementation of the obtained nanocrystal solutions into the production of superconducting nanocomposites and resistive switches. Both applications relied on Chemical Solution Deposition techniques, which represent a competitive advantage to high vacuum deposition methods. Nanocrystals proved improved performances in superconductors, both at small scale and industrial scale. Moreover, nanocrystals were capable of storing information in the form of non-volatile assemblies, becoming candidates for future replacement over current memory devices.
Keywords
Nanocrystals, Perovskites, Superconductors, Memristors, DOE

Citation

Please use this url to cite or link to this publication:

MLA
López Domínguez, Pedro. Colloidal Oxide Perovskite Nanocrystals : Synthesis, Optimization & Applications. Ghent University. Faculty of Sciences, 2021.
APA
López Domínguez, P. (2021). Colloidal oxide perovskite nanocrystals : synthesis, optimization & applications. Ghent University. Faculty of Sciences, Ghent, Belgium.
Chicago author-date
López Domínguez, Pedro. 2021. “Colloidal Oxide Perovskite Nanocrystals : Synthesis, Optimization & Applications.” Ghent, Belgium: Ghent University. Faculty of Sciences.
Chicago author-date (all authors)
López Domínguez, Pedro. 2021. “Colloidal Oxide Perovskite Nanocrystals : Synthesis, Optimization & Applications.” Ghent, Belgium: Ghent University. Faculty of Sciences.
Vancouver
1.
López Domínguez P. Colloidal oxide perovskite nanocrystals : synthesis, optimization & applications. [Ghent, Belgium]: Ghent University. Faculty of Sciences; 2021.
IEEE
[1]
P. López Domínguez, “Colloidal oxide perovskite nanocrystals : synthesis, optimization & applications,” Ghent University. Faculty of Sciences, Ghent, Belgium, 2021.
@phdthesis{8725793,
  abstract     = {{Nanocrystals may find applications in the improvement of current traditional materials and the research of new functionalities. Despite the number of described synthetic routes, a general strategy covering from preparation to industrial manufacturing implementation is still lacking. In this thesis, the synthesis of a variety of oxide perovskite nanocrystals is investigated. Attention is not only drawn into the control over the nanocrystal size but also in the preparation of stable colloidal nanocrystal solutions. This allowed the implementation of the obtained nanocrystal solutions into the production of superconducting nanocomposites and resistive switches. Both applications relied on Chemical Solution Deposition techniques, which represent a competitive advantage to high vacuum deposition methods. Nanocrystals proved improved performances in superconductors, both at small scale and industrial scale. Moreover, nanocrystals were capable of storing information in the form of non-volatile assemblies, becoming candidates for future replacement over current memory devices.}},
  author       = {{López Domínguez, Pedro}},
  keywords     = {{Nanocrystals,Perovskites,Superconductors,Memristors,DOE}},
  language     = {{eng}},
  pages        = {{XXII, 150}},
  publisher    = {{Ghent University. Faculty of Sciences}},
  school       = {{Ghent University}},
  title        = {{Colloidal oxide perovskite nanocrystals : synthesis, optimization & applications}},
  year         = {{2021}},
}