The Russian Analytical Digest (RAD) analyzes recent events, trends and developments within contemporary Russian politics, economics and business, foreign policy, security and society. Each issue ...

Im Erdkern steckt viel mehr Wasserstoff als bisher vermutet. Das Element ist schon sehr früh während der Erdentstehung und in grosser Menge in den Kern gelangt, wie eine Analyse von Forschern der ETH ...

Forschende der ETH Zürich konnten zeigen, warum nur wenige Planeten die chemischen Voraussetzungen für Leben besitzen – und ...

The right amount of oxygen being present when the Earth’s core was formed meant that there was sufficient phosphorus and nitrogen available in the mantle and crust. This means the Earth was the ...

ETH Zürich Wählen Sie ein Departement Departemente D-ARCH: Architektur D-BAUG: Bau, Umwelt und Geomatik D-BSSE: Biosysteme D-INFK: Informatik D-ITET: Informationstechnologie und Elektrotechnik D-MATL: ...

Outi Supponen, Professorin am Institut für Fluiddynamik am Departement Maschinenbau und Verfahrenstechnik der ETH Zürich, ist mit dem Young Scientist Award 2026 der European Synchrotron Radiation Faci ...

Gerald Haug, Professor für Klimageochemie am Departement Erd- und Planetenwissenschaften und ehemaliger Präsident der ...

A novel water-based gel, also known as a hydrogel, not only fights bacteria but also calms inflammation, thereby actively supporting wound healing. The material functions like a net, catching bacteria ...

The Center for Security Studies (CSS) at ETH Zürich is a center of competence for Swiss and international security policy. It offers security policy expertise in research, teaching, and consulting ...

In brief Researchers able to track for the first time how a particularly active region of the sun develops over three solar rotations using two space probes. Such observations help to better predict ...

ETH Zurich researchers have developed a process that can be used on site to render environmental toxins such as DDT and lindane harmless and convert them into valuable chemicals – a breakthrough for ...

A process developed at ETH Zurich enables the massive miniaturisation of organic light-emitting diodes (OLEDs) in only one single step. The light sources are now smaller than the wavelength of the ...