Materials Interfaces

Interfaces determine how materials perform. Grain boundaries and internal interfaces control strength, transport, and degradation in structural and energy materials - from nanometallic multilayers and high-temperature alloys to solid electrolytes for batteries.

We characterize these interfaces atom by atom. Combining aberration-corrected scanning transmission electron microscopy, STEM-EELS and STEM-EDX spectroscopy, and in-situ deformation, heating, and biasing experiments at the Ernst Ruska-Centre, we link grain boundary structure and chemistry to macroscopic properties.

Get to know us

The Group

Group photo – Peter Research Group

Members

  • Luzie Wehner
  • Jianxiao Cui
  • Mohamed Issifi
  • Dickson Castelino
  • Akshaya Senthilkumar
  • Junjie “Harry” Li
  • Shevalini Sankar
  • Pooja Gopinath
Portrait – team leader

Team leader

Dr. Nicolas J. Peter

Nicolas J. Peter is a junior research group leader at the Institute of Energy Materials and Devices (IMD-1) of Forschungszentrum Jülich. He works on grain boundary structure and chemistry, small-scale mechanics, and in-situ electron microscopy of energy materials… more about me

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News

Announcements

DFG project SISTer underway

In the DFG-FWF Weave project SISTer (project number 544676970), we investigate mechanisms of segregation induced strengthening and toughening of ultrafine-grained tungsten alloys at elevated temperatures, together with the group of Daniel Kiener at Montanuniversität Leoben. In-situ TEM deformation and atomic-resolution grain boundary characterization… read more

Reports

Master thesis defended - and a new PhD student

Dickson Castelino successfully defended his Master thesis on the microstructure of the solid electrolyte Li1.3Al0.3Ti1.7(PO4)3 (LATP) in May 2026. He continues in the group as a PhD student since June, working on 3D-printed preceramic polymers… read more

Latest papers

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News, openings and
conference updates

2026

A micromechanical investigation of plasticity in ordered NbMoCrTiAl and disordered TaNbHfZrTi refractory compositionally complex alloys at room temperature

International Journal of Plasticity

2025

Strengthening Mechanism of Al/Ni Multilayers with Negative Enthalpy of Mixing

Nano Letters

2025

Magnetic and mechanical hardening of nano-lamellar magnets using thermo-magnetic fields

Nature Communications

All publications

The Leidenfrost motion of diluted water micro-droplets on hot flat substrates enables the growth of α-Ga2O3 thin films via mist chemical vapor deposition The incident probability, incident angle, lifetime, and gliding distance of the microdroplets at surface vicinity…

#PRG #Juelich #MaterialInterfaces

The Leidenfrost motion of diluted water micro-droplets on hot flat substrates enables the growth of α-Ga2O3 thin films via mist chemical vapor deposition The incident probability, incident angle, lifetime, and gliding distance of the microdroplets at surface vicinity…

#PRG #Juelich #MaterialInterfaces