From June 10 to 14, in Berlin, Fraunhofer will showcase how advanced propulsion, sustainable materials, and satellite innovations economically enhance aerospace safety and competitiveness.

The Fraunhofer Institute for Telecommunications is developing laser-based surface functionalization technologies to optimize heat dissipation for satellite components and rocket nozzles.

Fraunhofer IPMS and partners have developed a wireless quantum-secure communication system combining light fidelity and quantum key distribution for critical infrastructure.

Researchers created a vibration-based deicing method reducing energy use by up to 80%, enabling safer, more sustainable next-generation aircraft propulsion.

Fraunhofer IPMS unveils a new EdgeVision Microdisplay technology improving efficiency and quality in high-resolution microdisplay production, with results showcased at the SID-MEC Conference, from November 3 to 4, 2025, in Göttingen.

A new measurement method from Fraunhofer IFAM optimizes battery management in electric cars, increases safety, and extends lifespan through real-time diagnostics.

From June 16–22, the Fraunhofer-Gesellschaft will again be represented at the joint booth (booth 2C-C358) of the German Aerospace Industries Association at the Paris Air Show 2025.

The module can achieve large, quasi-static 2D deflection angles of up to ±13° around a common pivot point, enabling a wide scanning field of 52° x 52°.

Fraunhofer IOSB is developing design concepts for electro-optical sensors on behalf of the German Ministry of Defense.

Researchers at the Fraunhofer Institute for Building Physics IBP use the Bleed Air Contamination Simulator (BACS) to recreate and study fume events artificially, helping assess potential health risks.