Two new high-resolution transmission electron microscopes, co-financed by
the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation), are set
to open up new opportunities for research in physics and materials science.
The new research microscopes at RWTH Aachen University and the University of
Ulm will enable exceptional, state-of-the-art developments in the field of electron
optics in Germany and be available to a broad group of users.
“With these new microscopes, Germany has the great opportunity to stay
right at the cutting edge of electron microscopy,” said Burkhard Jahnen,
who is responsible for projects in materials science, engineering and electron
microscopy at the DFG’s Head Office. Thanks to these state-of-the-art
microscopes it will not only be possible to study new materials at higher resolution
in the future, for example for research in the fields of energy or information
and communication technology, it will also open up an entirely new field of
materials science that has been impossible to study to date with existing electron-optical
techniques.
The “PICO” (Advanced Picometer Resolution Project) microscope,
which has been approved for the RWTH Aachen, will extend the resolution that
can be achieved by electron microscopes to a hitherto unimaginable scale. It
will be the first microscope in the world to be capable of detecting the position
of atoms to a resolution of 50 picometers – one picometer is one hundredth
of the diameter of an atom – thus doubling the performance of the current
generation of electron microscopes. This will not only make it possible to see
individual atoms, but also to measure the interatomic distance and atomic motion
to an accuracy of approximately one picometer. At the same time, it will be
possible to investigate the nature of the atoms by spectroscopic analysis and
study their chemical bonds.
The DFG is providing 2.5 million euros in funding for the PICO project, which
will cost approximately 15 million euros in total, which will be matched by
the state of North Rhine-Westphalia. The Federal Ministry for Education and
Research (BMBF) will provide funding for additional components for the microscope
and finance some of the required building work. The new microscope will be located
at the Ernst Ruska Centre (ER-C) for Microscopy and Spectroscopy with Electrons,
which is operated by the RWTH Aachen and the Jülich Research Centre. The
ER-C is one of the leading international research centres in the field of ultra-high
resolution electron microscopy.
The resolution of the SALVE (Sub-Ångstrøm Low Voltage Transmission
Electron Microscopy) project’s low-voltage transmission electron microscope
at the University of Ulm poses a serious challenge to researchers. The main
focus of this five-year project is on imaging individual atoms in materials
for applications in nanotechnology that are sensitive to the energy of the electron
beam that would quickly be destroyed in conventional electron microscopy. The
project plans to use low acceleration voltages that have barely been used in
practice in electron microscopes to date, while simultaneously applying state-of-the-art
electron-optical methods.
This new microscope will make it possible to reveal molecular structures and
follow molecular processes, allowing researchers to unlock the secrets of chemical
reactions. The DFG is providing 4.2 million euros in funding for the project,
which will cost approximately 11.5 million euros in total, while the state of
Baden-Württemberg will provide 2.4 million euros and a further 3.7 million
euros, including an endowed chair, will be funded by Carl Zeiss AG from Oberkochen.