Deciphering the structure of nanosystems with machine learning
Hybrid organic-inorganic films are important nanosystems for novel applications. Their specific function depends on their structure, in particular how the organic molecules orient on the inorganic component (here a metal surface). The CEST group teamed up with Oliver Hofmann's research group at Technical University Graz in Austria to investigate a specific organic-inorganic hybrid system: films of tetracyanoethylene (TCNE) molecules in contact with copper surface.
By combining two machine learning methods with quantum mechanical density-functional theory calculations, we investigated the structure of TCNE films on the copper surface. We observed a phase transition of flat lying molecules at low coverage to upright standing molecules at high coverage. Our results refute earlier claims that the TCNE molecules are always flat lying and that long-range charge transfer sets in at increased coverage. The solution of this long-standing puzzles opens up further research into the nanostructured behavior of hybrid organic-inorganic materials.
More details can be found in the following publication:
Egger, A. T., Hörmann, L., Jeindl, A., Scherbela, M., Obersteiner, V., Todorović, M., Rinke, P., Hofmann, O. T., Charge Transfer into Organic Thin Films: A Deeper Insight through Machine‐Learning‐Assisted Structure Search. .
Read more news
Research Council of Finland establishes a Center of Excellence in Quantum Materials
The Centre, called QMAT, creates new materials to power the quantum technology of coming decades.
Major funding powers development of next-generation machine technology aimed at productivity leap in export sectors
The BEST research project is developing new types of sealing, bearing, and damping technology.
The TAIMI project builds an equal working life – a six-year consortium project seeks solutions to recruitment and skill challenges
Artificial intelligence (AI) is changing skill requirements, the population is aging, and the labor shortage is deepening. Meanwhile, the potential of international experts often remains unused in Finland. These challenges in working life are addressed by the six-year TAIMI project funded by the Strategic Research Council, and implemented by a broad consortium.