Scientists were able to observe and document the growth of hexagonal boron nitride for the first time

28-Oct-2022

Atomically thin 2D materials for applications in microelectronics or nanotechnology are grown by breaking down gas on a hot metal surface. Due to the high temperatures and rapid transformation of the gas, it is extremely difficult to observe this process. Researchers from TU Graz have now joined ...

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Even more sensitive than a human fingertip

18-May-2022

The “smart skin” developed by Anna Maria Coclite is very similar to human skin. It senses pressure, humidity and temperature simultaneously and produces electronic signals. More sensitive robots or more intelligent prostheses are thus conceivable. The skin is the largest sensory organ and at the ...

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Why do large gas bubbles in viscoelastic liquids rise so much faster than expected?

07-Mar-2022

An open question with great relevance for industrial production processes. Researchers at TU Graz and TU Darmstadt have now found an explanation. It is a puzzle long known among experts and very relevant in many industrial production processes: a jump discontinuity in the rise velocity of gas ...

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A design principle for the self-assembly of functionalized molecules devised

21-Apr-2021

Using machine learning methods, researchers at TU Graz can predict the structure formation of functionalized molecules at the interfaces of hybrid materials. Now they have also succeeded in looking behind the driving forces of this structure formation. The production of nanomaterials involves ...

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New method for assembling nanomaterials as desired

31-Jul-2020

“Core-shell” clusters pave the way for new efficient nanomaterials that make catalysts, magnetic and laser sensors or measuring devices for detecting electromagnetic radiation more efficient. Whether in innovative high-tech materials, more powerful computer chips, pharmaceuticals or in the field ...

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How a molecule moves in the protective environment of a quantum fluid

24-Mar-2020

Markus Koch, head of the research group Femtosecond Dynamics at the Institute of Experimental Physics at TU Graz, and his team develop new methods for time-resolved femtosecond laser spectroscopy to investigate ultrafast processes in molecular systems. In 2018 the group demonstrated for the first ...

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14-Feb-2020

Researchers from Graz University of Technology and the University of Vienna are demonstrating for the first time how the energy flow between strongly interacting molecular states can be better described. Since the 1990s, femtochemistry has been researching ultrafast processes at the molecular ...

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Mechanism of Adipose-Biosynthesis decoded – the basis for the production of sugar molecules for neu fine chemicals or biopharmaceuticals

27-Nov-2019

In every weather situation, plants need to be robust and flexible at the same time. These structural properties come from its cell wall: It’s responsible to keep the plant in shape, to compensate its osmotic pressure and to protect it against pathogens e.g. bacteria, viruses or fungal attacks. ...

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Researchers have discovered a means of suppressing singlet oxygen formation in lithium-oxygen batteries

26-Apr-2019

Since 2012, Stefan Freunberger of the Institute for Chemistry and Technology of Materials at TU Graz has been working on development of a new generation of batteries with enhanced performance and longer useful lives, and which are also cheaper to produce than current models. He believes that ...

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05-Apr-2019

Researchers at TU Graz describe the effects which occur upon evaporation of vanadium compounds in Chemical Science. Improvements for the development of SCR catalysts may be based on their results. Researchers at the Institute of Experimental Physics at TU Graz have investigated the detailed ...

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