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18.06.2024 17:14

Jena Research Team Receives “Thüringer Forschungspreis” (Thuringian Research Prize)

Sina Seidenstücker Press & Public Relation
Fraunhofer-Institut für Angewandte Optik und Feinmechanik IOF

Fraunhofer scientists awarded for innovative 2D materials research: For their research into customized 2D materials, a team of four scientists from Friedrich Schiller University Jena and the Fraunhofer Institute for Applied Optics and Precision Engineering IOF have been awarded the “Thüringer Forschungspreis” (Thuringian Research Prize). The award for scientific excellence in the category “Applied Research” was presented today at a ceremony at the Technical University Ilmenau and is endowed with 25,000 euros.

A hundred thousand times thinner than a hair, stronger than steel and efficient mediators between light and electricity - so-called 2D materials are a rapidly developing class of materials with unique properties and great application potential.

For their research into these 2D materials, researchers from the University of Jena and Fraunhofer IOF have now been awarded the “Thüringer Forschungspreis” (Thuringian Research Prize). The award in the “Applied Research” category, which is endowed with 25,000 euros, was presented on June 18 at the TU Ilmenau.
The prize winners - Prof. Andrey Turchanin, Dr. Antony George, Dr. Christof Neumann and Dr. Falk Eilenberger (Fraunhofer IOF) - have developed a range of innovative methods to produce and utilize tailor-made 2D materials for photonic, electronic and optoelectronic applications.

A hint of nothing

The 2D materials studied represent a new class of materials that consist of just one or a few atomic layers - a hint of nothing. What is special about them: They drastically change their properties compared to the three-dimensional starting materials. One well-known nanomaterial is graphene. A 2D material that is isolated through the deposition of only nanometer-sized layers of graphite. In its atomic form, it is much stronger and more conductive than the starting material graphite, which we know from conventional pencils, for example.

At Fraunhofer IOF, Falk Eilenberger, head of the Department of Micro- and Nanostructured Optics, has studied and characterized the related material class of transition metal dichalcogenides, or TMDs for short. In their three-dimensional form, TMDs only occur as indirect semiconductors, which limits the potential applications. As a 2D material, however, the substance transforms into a direct semiconductor that can efficiently convert electricity into light and vice versa.
Scalable production creates new application potential

Until now, 2D materials have been obtained by “peeling off” three-dimensional crystals. Similar to peeling off a fingerprint with adhesive tape, individual layers of the crystals are removed piece by piece. This is a time-consuming process that is unsuitable for use in industry and has so far limited the potential applications of the materials.

The researchers from Jena have focused on a process that facilitates the industry-compatible production of customized 2D materials. To do this, they use what is known as vapor deposition, in which the crystal grows on a silicon or glass plate like a carpet - a nanometer-thin carpet.

”The new process not only made it possible for us to produce the 2D materials efficiently, but also to grow them scalably as functional parts on optical components,” explains Dr. Eilenberger. “This allows us to integrate TMD materials into optical fibers, among other things, which opens up a range of new application possibilities.”

Possibly the world’s smallest LED

By introducing TMD, optical fibers and photonic chips can be functionalized in such a way that they not only passively transmit light, but also generate, change or detect it: an ideal platform, for example, to implement certain tasks of classic computer chips photonically in an energy-saving way in the future. The research team also succeeded in functionalizing the 2D material as a diode and thus developing what is possibly the world’s smallest LED.

The integration of nanomaterials enables electronic, photonic and optoelectronic components to be produced for the first time that are both extremely small and powerful. The efficient conversion of electricity and light also makes the 2D materials interesting for applications in data transmission, camera technology or illumination systems. They can also be seamlessly combined with existing semiconductors, thus opening up new avenues in semiconductor technology.

The resulting light can also have very unusual quantum properties. It is therefore not only suitable for classic data transport, but also for quantum encryption. TMD-loaded optical components can therefore also make a contribution to the quantum security of data communication networks in the future.

One-of-a-kind combination in Thuringia

Dr. Eilenberger emphasizes the special research environment in Thuringia as the key to the success of the project: “We have a very unique situation here on site, which has led significantly to the success of our project,” he says with regard to the award. “In Thuringia, and especially in Jena, photonics know-how meets excellent scientific facilities - in terms of personnel and technology - and also companies that are willing to take risks and do not shy away from innovative projects,” explains Falk Eilenberger in recognition of his collaboration with his colleagues Prof. Andrey Turchanin, Dr. Antony George and Dr. Christof Neumann from the University of Jena.

With the “Thüringer Forschungspreis” (Thuringian Research Prize), the Free State of Thuringia has been honoring top scientific achievements from Thuringian universities and non-university research institutions yearly since 1995. The most excellent research achievements by individuals or research groups in the categories of basic and applied research are honored with prize money totaling 25,000 euros, and the Research Prize Award. The Thuringian Research Prize was presented on June 18, 2024, at the Technical University Ilmenau.

About Fraunhofer IOF

The Fraunhofer Institute for Applied Optics and Precision Engineering IOF in Jena conducts application-oriented research in the field of photonics and develops innovative optical systems for controlling light - from its generation and manipulation to its application. The institute's range of services covers the entire photonic process chain from opto-mechanical and opto-electronic system design to the production of customer-specific solutions and prototypes. At Fraunhofer IOF, about 500 employees work on the annual research volume of 40 million euros.

For more information about Fraunhofer IOF, please visit: www.iof.fraunhofer.de

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Wissenschaftliche Ansprechpartner:

Dr. Falk Eilenberger
Fraunhofer IOF
Head of Department Micro- and Nanostructured Optics
Phone: +49 (0) 3641 807- 274
Mail: falk.eilenberger@iof.fraunhofer.de

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Weitere Informationen:

https://www.iof.fraunhofer.de/en/pressrelease/2024/Thuringian-Research-Prize.htm...

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The winners of the “Thüringer Forschungspreis“ (Thuringian Research Prize): Prof. Andrey Turchanin, ...

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As atomic layers, 2D materials drastically change their properties.

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