Advanced Materials

Objectives and competences

The primary goal of this course is to teach students the basic principles of material science and inform them about the recent trend in developments on this area.

Competences: The students are introduced to the parameters that describe functional properties of materials. The mechanisms that are responsible for crystallographic defects will be discussed. Overview of the main characteristics of technologically relevant materials will include metals, semiconductors, polymers and nanostructured materials.

Prerequisites

Required prerequisit knowledge from courses: Technical Physics and Idustrial Chemistry at the first level studies.

Content

  1. Crystal structure
    • Structure of Atom
    • Crystal Lattices
    • Analysis of Crystal Structure
  2. Material Synthesis
    • Diffusion
    • Phase equilibrium
    • Solid-State Synthesis
    • Precipitation
    • Hydrothermal Synthesis
    • Single Crystals

  3. Crystal Defects
    • Point defects
    • Extended defects

  4. Types of Materials
    • Metals
    • Polymer
    • Silikates
    • Carbon structures
    • Ceramics
    • Glasses
    • Composites

  5. Functional properties
    • Mechanical properties
    • Thermal properties
    • Electrical properties
    • Magnetic properties
    • Optical properties

Intended learning outcomes

Knowledge and understanding:
The student will get informed with the basic principles of electronic structure of atoms, chemical bonds and crystallography. This will be followed by lectures on diffusion processes and phase equilibrium. The main part of the course represents the studies of materials properties. In this part the students will hear about thermal, mechanical, electrical, magnetic and optic properties of materials.
At the end of the course it is expected from the student to have a general overview on composition and functional properties of the materials from all four groups: metals, polymers, inorganic nonmetal systems and composites.

Readings

• Functional Materials: Electrical, Dielectric, Electromagnetic, Optical and Magnetic Applications By (author): Deborah D L Chung Catalogue
• Functional Materials: Preparation, Processing and Applications (Elsevier Insights) 1st Edition by S. Banerjee (Editor), A.K. Tyagi (Editor) Catalogue
• Fundamentals of Materials Science and Engineering: An Integrated Approach,
William D. Callister Jr., David G. Rethwisch Catalogue

Assessment

Assessment of the seminar, oral exam 40/60

Lecturer's references

Prof. dr. Matjaž Valant, full professor in the field of materials on the University of Nova Gorica

Education:
- University degree on chemistry, 21/3/1991, Faculty for Chemistry and Chemical Technologies, University of Ljubljana, Slovenia
- Doctorate, 30/11/1995 Jozef Stefan Institute, University of Ljubljana, Slovenia;
- Postdoctorate study, 01/10/1997 – 31/9/1998, Department of Materials Science and Engineering, University of Pennsylvania, Philadelphia, USA
- Assistant professorship, 01/11/2002, for the field of inorganic and general chemistry, University of Maribor, Slovenia
- Professor Associate 28/11/2007, for field of Materials, University of Nova Gorica, Slovenia
- Full professor 18/1/2013, for field of Materials, University of Nova Gorica, Slovenia

Publications (source: Google Scholar):
- Number of all publications: 210
- Citation count: >8900
- H-index: 50
- invited talks: 63 (6 plenary talks)
- number of patents: 11

  1. WU, Qianbao, LIANG, Junwu, XIAO, Mengjun, LONG, Chang, LI, Lei, ZENG, Zhenhua, MAVRIČ, Andraž, ZHENG, Xia, ZHU, Jing, VALANT, Matjaž, et al. Non-covalent ligand-oxide interaction promotes oxygen evolution. Nature communications. 2023, vol. 14, article no. 997, str. 1-12
  2. LUIN, Uroš, ARČON, Iztok, VALANT, Matjaž. Structure and population of complex ionic species in FeCl2 aqueous solution by X-ray absorption spectroscopy. Molecules. Feb. 2022, vol. 27, iss. 3, str. 1-13, ilustr. ISSN 1420-3049
  3. BELEC, Blaž, FERFOLJA, Katja, GORŠAK, Tanja, KOSTEVŠEK, Nina, GARDONIO, Sandra, FANETTI, Mattia, VALANT, Matjaž. Inherent surface properties of adsorbent-free ultrathin Bi2Se3 topological insulator platelets. Scientific reports. 2019, vol. 9, str. 190571-1-19057-9, ilustr.
  4. VALANT, Matjaž, ARČON, Iztok, MIKULSKA, Iuliia, LISJAK, Darja. Cation order-disorder transition in Fe-doped 6H-BaTiO[sub]3 for dilute room-temperature ferromagnetism. Chemistry of materials, ISSN 0897-4756. [Print ed.], 2013, vol. 25, no. 17, str. 3544-3550, doi: 10.1021/cm402353t. [COBISS.SI-ID 26970151]

  5. VALANT, Matjaž. Electrocaloric materials for future solid-state refrigeration technologies. Progress in Materials Science, ISSN 0079-6425. [Print ed.], 2012, vol. 57, no. 6, str. 980-1009. [COBISS.SI-ID 2210043]