Coming home It is rare for satellites to return to Earth intact. Empa researchers were able to study the European satellite EURECA using non-destructive X-ray methods. |
Insulating space Ultra-light, super-flexible, highly insulating: An aluminum-coated polymer film shields satellites from temperature extremes. The technology could also be used to improve flexible electronics. |
Zero gravity research Metallic glasses are novel materials with applications in space technology, but also in medicine and the watch industry. To better understand their properties Empa experiments are on board the ISS. |
Finding major emitters Space offers a new perspective on greenhouse gases and air pollutants: In future, European satellites will provide detailed emission maps down to the contributions of individual power plants and industrial facilities. |
Chatting with satellites Terahertz radiation is a promising part of the electromagnetic spectrum that has so far been underutilized. Empa researchers are enabling a wide range of applications both in space and on Earth. |
Of global importance Innovative materials and technologies are essential for space travel. Lorenz Herrmann, member of Empa's Directorate and Head of the Advanced Materials and Surfaces department, explains how Empa's strengths can benefit the Swiss space industry. |
Robust and green Empa inaugurated its novel methanation plant. The move-MEGA research project is the first to demonstrate so-called sorption-enhanced methanation at pilot scale. |
Smarter charging Electric cars are most effective when shared and charged intelligently. Real-time information on electricity prices and COâ‚‚ emissions is crucial for this, demonstrates a study. |
Invisible implant Empa researchers are working on a transparent, biocompatible cornea implant from the 3D printer. This allows defects to be repaired seamlessly and permanently. |
Robust and green Empa inaugurated its novel methanation plant. The move-MEGA research project is the first to demonstrate so-called sorption-enhanced methanation at pilot scale. |
Green electronics Empa researchers have developed biodegradable circuit boards – an important step toward sustainable electronics. The biomaterial is based entirely on wood. |
Living sensor Empa researchers have produced a living film from fungal fibers. This natural material could be used as a biodegradable sensor, a living fiber composite, or even as a non-toxic and edible emulsifier in cosmetics and food. |