CORDIS · 101106176 · HORIZON

OSE-Ferroelectrics Overturning Size Effects in Ferroelectric Thin Films

Coordinator: INSTITUT ZA FIZIKU (HR)

The rapid increase in power consumption for data collection, storage and processing drives a global interest in finding new energy-efficient device paradigms. Ferroelectric materials can provide energy-efficient solutions for targeted applications such as transistors based on polarization-induced negative capacitance or memory devices based on polarization-controlled resistive switching. The crucial properties of ferroelectric-based heterostructures in electronic applications are remanent polarization, coercive voltage and leakage current because they limit the ON/OFF ratio, energy efficiency…

EU contribution
Total cost
€0
Period
2024-03-01 → 2026-11-30
Framework
Horizon Europe (2021–2027)
Funding scheme
HORIZON-TMA-MSCA-PF-EF
Call
HORIZON-MSCA-2022-PF-01
Status
SIGNED

About Horizon Europe (2021–2027)

Horizon Europe is the EU's current research and innovation programme, covering 2021 to 2027 with a budget of roughly €95.5 billion. Its three pillars are Excellent Science (frontier research and mobility), Global Challenges and European Industrial Competitiveness (mission-driven collaborative projects in health, climate, digital, security and food) and Innovative Europe (the EIC and EIT). It also funds five EU Missions targeting cancer, climate adaptation, smart cities, oceans and soils.

The project runs over approximately 2.7 years from 2024-03-01 to 2026-11-30.

Full record on CORDIS — partners, deliverables, publications, news.

Open on cordis.europa.eu → Grant DOI ↗

Frequently asked questions

Who funds this research project?
This project is funded by the European Union through the Horizon Europe (2021–2027) programme, under the HORIZON-TMA-MSCA-PF-EF funding scheme.
Which EU programme funds it?
The project is funded under Horizon Europe (2021–2027), call HORIZON-MSCA-2022-PF-01.
Who coordinates the project?
The project is coordinated by INSTITUT ZA FIZIKU (HR).
What is the project timeline?
The project runs from 2024-03-01 to 2026-11-30 — approximately 2.7 years.
Where can I find the full project record?
The complete record — partners, deliverables, publications and news — is published on CORDIS under project ID 101106176.