Projects / Programmes source: ARIS

Flexible elements with multi-physical properties

Research activity

Code Science Field Subfield
2.21.00  Engineering sciences and technologies  Technology driven physics   

Code Science Field
1.03  Natural Sciences  Physical sciences 
multi-functional elements, electrocaloric, piezoelectric, energy storage, magnetic, aerosol deposition
Evaluation (rules)
source: COBISS
Data for the last 5 years (citations for the last 10 years) on June 17, 2024; A3 for period 2018-2022
Data for ARIS tenders ( 04.04.2019 – Programme tender, archive )
Database Linked records Citations Pure citations Average pure citations
WoS  478  10,622  8,976  18.78 
Scopus  509  11,743  9,880  19.41 
Researchers (8)
no. Code Name and surname Research area Role Period No. of publicationsNo. of publications
1.  19038  PhD Andreja Benčan Golob  Materials science and technology  Researcher  2021 - 2024  537 
2.  31976  PhD Mirela Dragomir  Materials science and technology  Researcher  2021 - 2024  123 
3.  06896  Silvo Drnovšek    Technical associate  2021 - 2024  306 
4.  04587  PhD Barbara Malič  Electronic components and technologies  Researcher  2021 - 2024  1,482 
5.  57193  PhD Soukaina Merselmiz  Electronic components and technologies  Researcher  2022 - 2024  17 
6.  24272  PhD Tadej Rojac  Electronic components and technologies  Researcher  2021 - 2024  599 
7.  52065  PhD Matej Šadl  Electronic components and technologies  Researcher  2021 - 2024  100 
8.  26468  PhD Hana Uršič Nemevšek  Electronic components and technologies  Head  2021 - 2024  659 
Organisations (1)
no. Code Research organisation City Registration number No. of publicationsNo. of publications
1.  0106  Jožef Stefan Institute  Ljubljana  5051606000  91,415 
In the frame of this project, we will prepare flexible multi-physic all-in-one elements. These new elements will exhibit electrocaloric cooling, energy-storage, piezoelectric and magnetic properties, all in one element. Such elements will enable new life-styles for humankind (multi-sensing during motion) and completely new applications in flexible and portable electronic and cooling devices. The multi-physic layers will be deposited directly to flexible substrates at room temperature by aerosol deposition technique. Three years ago, the PI of this project (Hana Uršič) received the prestige IJS “Director’s Council” award for novelty and innovation. In the frame of this award, Dr Uršič received the money to build a new laboratory called the “Laboratory for the ultracool preparation of complex oxides”, which also includes the aerosol deposition technique. Now the time is right to push the envelope of science further and to develop new multi-physic all-in-one elements. The project will be led by a motivated, dynamic and hard-working leader, Asst. Prof. Dr. Hana Uršič, who was a leader of successfully completed national and international projects. Her last national research project in the field of Technology-driven physics (J2-9253) was this year awarded by National Research Agency with recognition Excellent in Science 2020. Based on previous experiences it can be concluded that the research group will be able to achieve the project's objectives. The project has exceptional goals of preparing flexible multi-physic all-in-one elements, inline with the high-risk, high-gain ambition of the project. This project is a starting point in the development of the breakthrough science of multi-physic all-in-one elements, uniting flexibility, electrocaloric, magnetic (magnetoelectric), piezoelectric (electrostrictive) and energy-storage properties on demand. Due to the novelty and attractiveness of this topic, publications in high-impact journals are expected.
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