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Water is ubiquitous and essential for life. Nevertheless, experimental information about its behaviour on the atomic level – above all how it interacts with surfaces – is scarce. Thanks to a new experimental method, TU Graz researchers have now delivered insights into the atomic-level movement of water molecules, which they outline in a paper in Nature Communications.
Water is a mysterious substance. Understanding its behaviour on an atomic scale remains a challenge for experimentalists as the light hydrogen and oxygen atoms are difficult to observe with conventional experimental probes. This is especially true when trying to observe the microscopic movement of individual water molecules which occurs on a pico-second time-scale. As reported in their paper, entitled ‘Nanoscopic diffusion of water on a topological insulator’, researchers from the Exotic Surfaces group at TU Graz’s Institute of Experimental Physics joined forces with counterparts from the Cavendish Laboratory at the University of Cambridge, the University of Surrey and Aarhus University. Together, they made significant advances, performing research into the behaviour of water on a material which is currently attracting particular interest: the topological insulator bismuth telluride. This compound could be used to build quantum computers. Water vapour would then be one of the environmental factors to which applications based on bismuth telluride may be exposed during operation.
In the course of their research, the team used a combination of a new experimental method called helium spin-echo spectroscopy and theoretical calculations. Helium spin-echo spectroscopy utilises very low-energy helium atoms which allows the motion of isolated water molecules to be observed without disruption. The researchers discovered that water molecules behave completely different on bismuth telluride compared to those on conventional metals. They report clear evidence for repulsive interactions between water molecules, which is contrary to the expectation that attractive interactions dominate the behaviour and aggregation of water on surfaces.
Bismuth telluride appears to be insensitive to water, which is an advantage for applications under typical environmental conditions. Plans are in place for further experiments on similarly structured surfaces, intended to clarify whether the movement of water molecules is attributable to specific features of the surface in question.
This area of research is part of TU Graz’s Advanced Materials Science Field of Expertise, one of the university’s five strategic research focuses.
Dr. Anton TAMTÖGL
Institute of Experimental Physics
Petersgasse 16
8010 Graz
Tel. +43 (0)680 3171626
tamtoegl@tugraz.at
Tamtögl, A., Sacchi, M., Avidor, N. et al. Nanoscopic diffusion of water on a topological insulator. Nat Commun 11, 278 (2020) doi:10.1038/s41467-019-14064-7
https://www.tugraz.at/en/institutes/iep/research/surfaces/ (Exotic Surfaces group at TU Graz’s Institute of Experimental Physics)
https://www.tugraz.at/en/research/fields-of-expertise/advanced-materials-science... (Overview Advanced Materials Science at TU Graz)
Anton Tamtögl (bottom left) with research colleagues at the Institute for Experimental Physics at Gr ...
© IEP/TU Graz
None
Schematic representation of the movement of water molecules on a topological insulator.
© Tamtögl
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Criteria of this press release:
Journalists
Chemistry, Electrical engineering, Physics / astronomy
transregional, national
Research results, Scientific Publications
English
Anton Tamtögl (bottom left) with research colleagues at the Institute for Experimental Physics at Gr ...
© IEP/TU Graz
None
Schematic representation of the movement of water molecules on a topological insulator.
© Tamtögl
None
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