How metal atoms can arrange themselves on an insulator

February 04, 2021

In order to produce tiny electronic memories or sensors in future, it is essential to be able to arrange individual metal atoms on an insulating layer. Scientists at Bielefeld University's Faculty of Chemistry have now demonstrated that this is possible at room temperature: molecules of the metal-containing compound molybdenum acetate form an ordered structure on the insulator calcite without jumping to other positions or rotating. Their findings have been presented in the Nature Communications journal. The work was done in cooperation with researchers from the universities of Kaiserslautern, Lincoln (UK) and Mainz.

'Until now, it has been difficult to arrange metal atoms on an insulator surface. It's easier on a metal surface, but that's not of much benefit for use in electronic components,' says Professor Dr Angelika Kühnle, who heads the Physical Chemistry I working group at the Faculty of Chemistry. 'That's what's special about our study: we've found a way to arrange metal atoms on insulators in a lattice-like structure.' Insulators are materials in which electrons cannot move freely and are therefore very poor conductors of electricity.

The difficulty is in robustly anchoring metal atoms even at room temperature - without them attracting each other, jumping to other positions or rotating. Until now, scientists have been able to arrange small molecules on insulators at very low temperatures, but at room temperature they were too mobile. Larger molecules solved the problem of mobility, but quickly formed clusters.

For their research, Kühnle and her working group used molybdenum acetate, a compound that contains two atoms each of the metal molybdenum. The fact that this compound shows interesting structural properties on a gold surface had previously been discovered by a research team from the Technical University of Kaiserslautern. 'If molybdenum acetate is now applied to a calcite surface, the molecules form an ordered structure. This means that the molybdenum atoms are also arranged in an ordered array,' says Dr Simon Aeschlimann, who conducted research in Kühnle's group and is lead author of the published study. 'By means of various experiments and simulations, we were able to show that the molybdenum acetate molecules neither jump nor rotate, nor do they form clusters. They are firmly anchored on the calcite surface.'

The scientists conducted the experiments with the aid of an atomic force microscope. 'In atomic force microscopy, a tiny needle scans the surface of materials - like a record player, except that the needle does not touch the surface directly, but is deflected by atomic forces. This then creates an image of the surface structure,' says Aeschlimann. The scientists examined, for example, where the molybdenum acetate molecules are located on the calcite surface and in which direction they align themselves.

The ordered structure is created because the molybdenum acetate molecules align themselves precisely with the charge distribution on the calcite surface. Calcite consists of calcium and carbonate building blocks that form a regular lattice structure. 'Each molybdenum acetate molecule fits only in a very specific place on the calcite surface and at the same time does not interact with its neighbouring molybdenum acetate molecules. That means it is firmly anchored,' says Kühnle.

As a scientist engaged in pure research, Kühnle is interested in the question of how molecular structures form on surfaces or interfaces. But the results are also relevant for electronic applications: if, for example, magnetic metals can be arranged according to the same principle, this could be used in nanotechnology to produce data storage - i.e. memories that are only a few millionths of a millimetre in size. Other possible areas of application include optical or chemical sensors.
Original publication: Simon Aeschlimann, Sebastian V. Bauer, Maximilian Vogtland, Benjamin Stadtmüller, Martin Aeschlimann, Andrea Floris, Ralf Bechstein, Angelika Kühnle: Creating an Array of Metal-Complexing Molecules on an Insulator Surface at Room Temperature. Nature Communications,, published on 21 December 2020.

Contact: Professor Dr Angelika Kühnle, Bielefeld University
Faculty of Chemistry
Telephone: +49 521 106-2045

Bielefeld University

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