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Different approaches for enhancing dielectric response of polymer and ceramic materials

Author(s): Vida Jurečič (Author), Vid Bobnar (Supervisor), Nikola Novak (Co-Supervisor)

Year: 2025

Type: Doctoral dissertation

Dielectric materials are essential components of electronic devices and electric power systems. Consequently, the design and development of new materials with enhanced dielectric response remain of great importance. This dissertation examines three different approaches to enhancing the dielectric response: (i) percolative composites, (ii) polymer blending, and (iii) the induction of …

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 …

Microstructure design and multifunctionality of barium zirconate titanate-barium calcium titanate thin films prepared by chemical solution deposition

Author(s): Sabi William Konsago (Author), Barbara Malič (Supervisor), Hana Uršič Nemevšek (Co-Supervisor)

Year: 2025

Type: Doctoral dissertation

Barium zirconate titanate-barium calcium titanate 0.5Ba(Zr0.2Ti0.8)O3-0.5(Ba0.7Ca0.3)TiO3 (BZT-BCT) ceramic exhibits a high piezoelectric response in the vicinity of room temperature. It is an environment-friendly alternative to Pb(Zr1-xTix)O3 (PZT), the most used ceramic material in piezoelectric applications. Thin films meet the requirements related to the miniaturization of electronic components such as in …

Microstructure development in lithium lanthanum titanate solid electrolyte

Author(s): Petruša Borštnar (Author), Nina Daneu (Supervisor)

Year: 2025

Type: Doctoral dissertation

All-solid-state batteries are one of the key technologies for future energy storage and the transition to a climate-neutral society. They offer improved safety, stability, and a broader operating temperature range compared to conventional batteries with liquid electrolyte. Perovskite Li0.33La0.56 0.11TiO3 (LLTO) is recognized as one of the most promising solid …

ǂA ǂdecision-support system for the design of a green-hydrogen production system in a hydropower plant

Author(s): David Jure Jovan (Author), Gregor Dolanc (Supervisor)

Year: 2024

Type: Doctoral dissertation

This dissertation combines academic research and the application of its results to a real benchmark process. With the emerging electro-energetic systems that have a large share of renewable sources, hydrogen is becoming an important energy carrier that contributes to the storage and usage of surplus green energy and thus reduces …

Lead magnesium niobate titanate thick films prepared by aerosol deposition method

Author(s): Matej Šadl (Author), Hana Uršič Nemevšek (Supervisor)

Year: 2022

Type: Doctoral dissertation

The miniaturization of electronic devices requires the fabrication of functional components in the form of μm-sized thick films. Some of the most promising functional materials are relaxor-ferroelectric (1-x)Pb(Mg1/3Nb2/3)O3–xPbTiO3 (PMN–100xPT), as they exhibit versatile dielectric, piezoelectric and relaxor-ferroelectric properties. However, the integration of functional ceramic thick films with non-conventional substrates such …

Time-efficient method for monitoring electrochemical energy conversion systems

Author(s): Gjorgji Nusev (Author), Pavle Boškoski (Supervisor)

Year: 2022

Type: Doctoral dissertation

According to the EU’s Green Deal plan, one of the main objectives for the EU is to become a net-zero greenhouse emission society by 2050. Achieving this goal requires advancements across many areas ranging from energy production, conversion, distribution and energy storage where the key role is taken by the …

Plasma-enabled design of hybrid carbon nanostructures for energy storage applications

Author(s): Neelakandan Marath Santhosh (Author), Uroš Cvelbar (Supervisor), Gregor Filipič (Co-Supervisor)

Year: 2021

Type: Doctoral dissertation

Carbon, one of the most abundant materials in the earth crust, has gained research attention owing to its high structural stability, electrical conductivity, optical and thermal properties. Additionally, the possibility of tailoring carbon materials at nanoscales makes them promising materials for many applications, including energy storage, sensors, biomedical and electronics. …