REPOSITORY > RESULTS

Browse All

Search Results (7)

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 …

Topology-induced phenomena and caloric effects in condensed matter

Author(s): Dejvid Črešnar (Author), Zdravko Kutnjak (Supervisor), Brigita Rožič (Co-Supervisor)

Year: 2023

Type: Doctoral dissertation

The first part of the thesis deals with the impact of surface-functionalized nanoparticles (NP) can have on the stability of liquid crystal (LC) phases. Experimental data of NP concentration-driven phase transition between the isotropic and nematic phase in 5OO8 LCs were used to create a minimal mathematical model that would …

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 …

Investigations and separation of various contributions to dielectric response of advanced ceramic and polymeric materials

Author(s): Andreja Eršte (Author), Vid Bobnar (Supervisor)

Year: 2013

Type: Doctoral dissertation

Dielectric materials, used to control and store charges and electric energy, play a key role in modern electronics and electric power systems. Dielectric spectroscopy is a versatile method, well-suited for detection, separation and characterization of various contributions to dielectric response of advanced ceramic and polymeric materials, as it enables understanding …

Study of polar ordering in ordered and partial disordered ferroelectric systems

Author(s): Nikola Novak (Author), Zdravko Kutnjak (Supervisor)

Year: 2013

Type: Doctoral dissertation

This work presents experimental studies of ordering phenomena, electromechanical and electrocaloric properties in single crystal, ceramic and solid solution relaxor ferroelectrics and single crystal ferroelectric materials. The main aim of investigations is to prove the existence of a liquid-vapor critical point in these systems and to verify its impact on …

Processing-Dependent Broadband Dielectric Properties of KTaO3 Ceramics, Films and KTa0.6Nb0.4O3 Films

Author(s): Sebastjan Glinšek (Author), Marija Kosec (Supervisor), Zdravko Kutnjak (Co-Supervisor)

Year: 2012

Type: Doctoral dissertation

KTaO3 belongs to the group of incipient ferroelectrics, which are materials important from the fundamental, as well as from the applications, point of view. It is well known in its single-crystal form; however, the processing of technologically interesting ceramics and thin films is a challenging task and knowledge of their …

Na0.5Bi0.5TiO3-based materials with mechanical-stress-dependent dielectric properties

Author(s): Jakob König (Author), Danilo Suvorov (Supervisor), Boštjan Jančar (Co-Supervisor)

Year: 2009

Type: Doctoral dissertation

The stress dependence of the electrical permittivity offers a convenient way of measuring pressure. This effect is suitable for static and quasi-static stress applications, where the conventional method based on the piezoelectric effect becomes inadequate. Although the principle of applying this effect for pressure sensing has been known for almost …