Projects / Programmes source: ARIS

Layered ceramic nanostructures and 2D nanoparticles arrays

Research activity

Code Science Field Subfield
2.04.00  Engineering sciences and technologies  Materials science and technology   

Code Science Field
T150  Technological sciences  Material technology 
T153  Technological sciences  Ceramic materials and powders 
P260  Natural sciences and mathematics  Condensed matter: electronic structure, electrical, magnetic and optical properties, supraconductors, magnetic resonance, relaxation, spectroscopy 
P351  Natural sciences and mathematics  Structure chemistry 
layered nanostructures, 2D nanoparticles arrays, interfaces, electron microscopy, probe microscopy, functionally graded nanostructures, dielectric and optical properties
Evaluation (rules)
source: COBISS
Researchers (12)
no. Code Name and surname Research area Role Period No. of publicationsNo. of publications
1.  03937  PhD Miran Čeh  Materials science and technology  Head  2004 - 2007 
2.  02556  PhD Goran Dražić  Materials science and technology  Researcher  2004 - 2007 
3.  15601  Jožko Fišer    Technical associate  2004 - 2007 
4.  05216  Medeja Gec    Technical associate  2004 - 2007 
5.  12616  PhD Darinka Kek Merl  Materials science and technology  Researcher  2004 - 2007 
6.  09089  PhD Igor Muševič  Physics  Researcher  2004 - 2007 
7.  09090  PhD Peter Panjan  Materials science and technology  Researcher  2004 - 2007 
8.  01112  PhD Albert Prodan  Physics  Researcher  2004 - 2007 
9.  15597  PhD Zoran Samardžija  Materials science and technology  Technical associate  2004 - 2007 
10.  12338  PhD Miha Škarabot  Physics  Researcher  2004 - 2007 
11.  19030  PhD Sašo Šturm  Materials science and technology  Researcher  2004 - 2007 
12.  19245  PhD Herman Josef P. Van Midden  Computer science and informatics  Researcher  2004 - 2007 
Organisations (1)
no. Code Research organisation City Registration number No. of publicationsNo. of publications
1.  0106  Jožef Stefan Institute  Ljubljana  5051606000  18 
The proposed project foresees processing and characterization of layered nanostructures and ordered two-dimensional nanoparticles arrays of various ceramic materials with the final aim to correlate the structure and chemistry of processed nanostructures with the resulting electrical, optical, mechanical and tribological properties. The investigated materials will include different dielectric and ferroelectric ceramic oxide materials, non-oxide ceramic materials and refractory nitrides. The new approach that will be used in processing of layered nanostructure will be to prepare functionally graded nanostructures where each layer will be a solid solution with different composition. In this way the structural differences between different layers will be minimized, which will enable preparation of defect-free layered nanostructures with improved physical properties.
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