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31. October 2023

Neutralising electronic inhomogeneity in cleaved bulk MoS₂

HZB team investigated properties of molybdenum disulphide that can function as a photocatalyst in green hydrogen production

Illustration MoS₂ lattice structure © Martin Künsting/HZB
The illustration shows the MoS₂ lattice structure (green: Mo, yellow: S). The material after cleaving is shown in the forefront, the surface is jagged, and the measured surface electronic structure is inhomogeneous (coloured map). In the back is the cleaved material after exposure to atomic hydrogen (represented by the white balls). The measured surface electronic structure, shown in the map, is more homogenous. Credit: Martin Künsting/HZB

Molybdenum disulphide (MoS₂) is a highly versatile material that can function, for example, as a gas sensor or as a photocatalyst in green hydrogen production. Although the understanding of a material usually starts from investigating its bulk crystalline form, for MoS₂ much more studies have been devoted to mono and few layer nanosheets. The few studies conducted thus far show diverse and irreproducible results for the electronic properties of cleaved bulk MoS₂ surfaces, highlighting the need for a more systematic study.

Dr. Erika Giangrisostomi and her team at HZB carried such a systematic study at the LowDosePES end-station of the BESSY II light source. They utilised X-ray photoelectron spectroscopy technique to map the core-level electron energies across extensive surface areas of MoS2 samples. Using this method, they were able to monitor the changes in the surface electronic properties after in-situ ultra-high-vacuum cleaving, annealing and exposure to atomic and molecular hydrogen.

The results from this study point to two main findings. Firstly, the study unambiguously reveals sizeable variations and instabilities in electron energies for the freshly cleaved surfaces, demonstrating how easy it is to come to diverse and irreproducible outcomes. Secondly, the study shows that room temperature atomic hydrogen treatment is remarkably effective in neutralising the surface electronic inhomogeneity and instability. This is rationalised by the ability of hydrogen atoms to either accept or give away an electron, and calls for further characterisations of the functional properties of the hydrogenated material. “We hypothesise that atomic hydrogen helps rearranging sulphur vacancies and excess of sulphur atoms yielding a more ordered structure”. Erika Giangrisostomi says.

This study marks a fundamental step in the investigation of MoS2. Due to the extensive use of MoS2 in all kinds of applications, the findings of this research have the potential to reach a wide audience in the fields of electronics, photonics, sensors and catalysis.

Original publication:

Inhomogeneity of Cleaved Bulk MoS2 and Compensation of Its Charge Imbalances by Room-Temperature Hydrogen Treatment
Erika Giangrisostomi, Ruslan Ovsyannikov, Robert Haverkamp, Nomi L. A. N. Sorgenfrei, Stefan Neppl, Hikmet Sezen, Fredrik O. L. Johansson, Svante Svensson, Alexander Föhlisch
Advanced Materials Interfaces (n/a), 2300392. doi.org/10.1002/admi.202300392

 

Contact:

Helmholtz-Zentrum Berlin für Materialien und Energie
Erika Giangrisostomi
Institute Methods and Instrumentation for Synchrotron Radiation Research
Email: erika.giangrisostomi(at)helmholtz-berlin.de
www.helmholtz-berlin.de

 

Credit: HZB / 30.10.2023

Research Microsystems / Materials Renewable Energies

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