Pioneering Memristor Technology for Future Neuromorphic Computing

We develop cutting-edge GdCaMnO devices for energy-efficient AI and next-generation electronics.

Join us

Memristors and Neuromorphic computing @ UTU

From Materials to Neuromorphic Circuits
Our research spans the entire chain from material synthesis to device integration: Material Growth & Characterisation Pulsed laser deposition of...
Memristors: Computing and Memory in One
Memristors are the fourth fundamental circuit element, alongside resistors, capacitors, and inductors.They can change resistance based on the history of...
Meet the team
Our group brings together physicists, materials scientists, engineers, and students with a shared passion for advancing electronics beyond traditional limits.

News

15.8.2025
5 M€ Business Finland grant awarded to us
We were awarded a 5 M€, 5-year research grant by Business Finland Rise-to-Challenge-call as the only one laboratory project. This...
23.4.2025
An article was published in ACS Applied Electronics Materials
Anni’s second article Area-Dependent Resistive Switching and Interfacial Dynamics in GCMO-Based Memristors was publised in ACS Applied Alectronics Materials.
11.3.2025
YLE made another story of us
YLE made another story of us and you can find it here (in Finnish).

Intro to Memristors & GCMO

What is a Memristor?

A memristor is an electronic device whose resistance changes depending on the history of current flow through it. This property allows it to store information and perform computation in the same location, enabling faster, more energy-efficient computing than traditional electronics.

Why GCMO?

Gd1-xCaxMnO3 (GCMO) is a perovskite oxide that offers exceptional stability, tunable resistance states, and low power operation. Our group holds multiple patents on GCMO memristors, including device architectures for neuromorphic applications.

Read more about memristors and GCMO

Why Join Us?

At the University of Turku’s Wihuri Physical Laboratory, you’ll have:

  • Freedom to explore – Shape your own research direction within our projects.

  • World-class facilities – From thin film growth to advanced device testing.

  • An inspiring environment – Collaborative team, strong mentoring, and a city with excellent quality of life.

We are looking for Postdoctoral researchers, and visiting scientists to join our efforts in memristor materials, device physics, circuit design, and neuromorphic applications.

 Explore Opportunities