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Cold sintering of lead-free ferroelectric perovskites

Author(s): Samir Salmanov (Author), Mojca Otoničar (Supervisor), Danjela Kuščer Hrovatin (Co-Supervisor)

Year: 2025

Type: Doctoral dissertation

Fabrication of electroceramics usually requires high sintering temperatures of 800 to 1400 °C, which can unintentionally lead to problems such as volatilization of species, formation of secondary phases and excessive grain growth. These problems can cause inhomogeneous microstructures, non-stoichiometric chemical compositions and limited material functionality. Therefore, there is a need …

Electron microscopy of titanium oxynitride supported iridium based electrocatalysts

Author(s): Gorazd Koderman Podboršek (Author), Goran Dražić (Supervisor)

Year: 2022

Type: Doctoral dissertation

We are speeding full throttle towards a climate catastrophe and we have only until 2030 to take action to avoid the most devastating and unimaginable consequences. The lack of political and corporate will to change the status quo of “business as usual” is causing mass protests and civil disobedience globally. …

Defect chemistry and hardening of ferroelectric cobalt-doped bismuth ferrite ceramics: doctoral thesis

Author(s): Maja Makarovič (Author), Tadej Rojac (Supervisor), Sverre Magnus Selbach (Co-Supervisor)

Year: 2020

Type: Doctoral dissertation

Bismuth ferrite, BiFeO3 (BFO), has been recognized as a promising lead-free material for high-temperature piezoelectric applications due to its high Curie temperature of 825 °C. However, the practical use of BFO has been limited in particular by its elevated electrical conductivity. In addition, BFO shows the characteristics of ferroelectric hardening, …

Innovative electroconductive ceramic composites based on Si3N4

Author(s): Aljoša Maglica (Author), Tomaž Kosmač (Supervisor), Kristoffer Krnel (Co-Supervisor)

Year: 2011

Type: Doctoral dissertation

This thesis describes an investigation of electrically conductive composites based on Si3N4 with dispersed TiN or ZrN particles fabricated by an in-situ composite method. The influence of the amount of conductive phase of the Si3N4/TiN and Si3N4/ZrN composites on the density, the flexural strength and the electrical conductivity were evaluated. …