Electronic Materials

Our research, undertaken in close cooperation with our partner institute at RWTH Aachen University, focuses on the nanoelectronics of the future. To this end, we investigate electronic phenomena in oxides and electronically-active organic molecules.

Head: Prof. Dr. Rainer Waser

News and Events

Schichtweiser Aufbau eines Katalysatormaterials

Increasing the Activity of Catalysts

A layer as thin as a single atom makes a huge difference: On the surface of an electrode, it doubles the amount of water split in an electrolysis system without increasing the energy requirements. Thus, the ultrathin layer also doubles the amount of hydrogen produced without increasing costs. Researchers from Jülich, Aachen, Stanford, and Berkeley report on this in the latest edition of the journal Nature Materials.

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PGI Colloquium: Prof. Dr. Tobias Kampfrath, FU Berlin & Fritz Haber Institute, Berlin, Germany

To take advantage of the electron spin in future electronics, spin angular momentum needs to be transported and detected. Electric fields and temperature gradients have been shown to efficiently drive spin transport at megahertz and gigahertz frequencies. However, to probe the initial elementary steps that lead to the formation of spin currents, we need to launch and measure transport on much faster, that is, on femtosecond time scales.

JARA_FIT

JARA FIT

New concepts in information technology.

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JARA HPC

Computer simulation with high-performance computers.

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EMRL

Electronic Materials Research Lab (EMRL) consits of IWE II at RWTH Aachen and IEM at Forschungszentrum Jülich.