The list of international projects SAS
Institute of Electrical Engineering SAS
Atomic-layer 3D printing as a new paradigm for smart sensorics
3D tlač atomárnych vrstiev ako nová paradigma pre múdru senzoriku
| Duration: |
1.6.2023 - 31.5.2026 |
| Program: |
ERANET |
| Project leader: |
Ing. Hudec Boris PhD. |
| Annotation: | The goal of the project is adopting new rapid on-demand prototyping fab-less fabrication method of atomic-layer additive manufacturing (ALAM) to fabricate a matrix of non-identical microscopic TiO2-based hydrogen-sensing elements, arranged into pre-programmed hardware neural network (HNN). The first application is a fully ALAM-printed prototype of a smart Pt/TiO2-based low-power hydrogen sensor with low-level in-sensor data processing. Wider adoption of ALAM technology, which we will pursue through the open innovation hub framework, where rapid prototyping of various ALAM-printed HNN designs from stakeholders, will be encouraged. Project addresses the needs for novel process technologies considering circular economy with minimized waste and use of critical materials, and the need for new smart sensors with in-sensor data processing for the rising hydrogen energy infrastructure. |
European Innovative GaN Advanced Microwave Integration
Európska inovatívna pokročilá GaN mikrovlnná integrácia
Magnetism and chirality: twisting spins, light, and lattices for faster-than-ever spintronics
Magnetizmus a chiralita: točivé spiny, svetlo, a kryštalické mriezky pre rýchlejšiu spintroniku
Oxide-based photonic crystal ohmic contacts for efficient GaN-based PCSEL diodes
Ohmické kontakty pre efektívne PCSEL GaN diódy tvorené fotonickým kryštálom na báze oxidových materiálov
Superconducting cables for sustainable energy transition
Supravodivé káble podporujúce prechod na udržateľnú energetiku
Implementation of activities described in the Roadmap to Fusion during Horizon2020 through a Joint programme of the members of the EUROfusion consortium
Uskutočňovanie aktivít popísaných v Ceste k fúzii počas Horizon2020 cestou spoločného programu členov konzorcia EUROfusion
Establishment of reliability laboratory for pawer modules and joint reserch of GaN and Ga2O3 power devices
Vybudovanie laboratória pre výskum spoľahlivosti výkonových modulov a spoločný výskum v oblasti GaN a Ga2O3 polovodičových výkonových súčiastok
Development of CVD Diamond-Integrated Gallium Oxide Rectifying Diodes with Improved Thermal Performance and Electric Field Management
Vývoj usmerňujúcich diód na báze oxidu galitého s vylepšenými tepelnými a elektrickými vlastnosťami vďaka integrácii s CVD diamantom
| Duration: |
1.1.2025 - 31.12.2026 |
| Program: |
Mobility |
| Project leader: |
Ing. Gucmann Filip PhD. |
| Annotation: | This project aims to address the issues of overheating and premature breakdown in high-power gallium oxide (GaO)-based devices by developing a cutting-edge technology to grow diamond films by chemical vapor deposition (CVD) directly on GaO films protected by engineered interlayers, targeting the GaO/diamond interface with low thermal barrier.
This bilateral project will involve interdisciplinary collaboration between experts in diamond technology and materials science, epitaxial growth of (ultra)wide bandgap semiconductors, device design and fabrication, and advanced electrical testing. Successful completion of this research will result in a developed and manufactured prototype of an advanced power electronic GaO-based rectifying diode with CVD diamond serving as an efficient heat-spreading layer and guard ring-based edge termination for improved electric breakdown. Such technology has a significant disruptive potential for the current power electronic industry and may lead to innovative devices with improved efficiency and reliability available in the future power device market. |
Vertically aligned two-dimensional transition metal dichalcogenide composites for micro-supercapacitors
Vývoj vertikálnych kompozitov z dichalkogenidov prechodových kovov pre použitie v mikrosuperkondenzátoroch
The total number of projects: 9
