Highly sensitive electronic components are the drivers of our digitalized world. Micro-electro-mechanical systems (MEMS) open up new possibilities for miniaturization in wide-ranging application areas.

The rising price and low availability of raw materials, especially silver, are leading to higher costs in producing photovoltaic modules. Fraunhofer researchers have developed an electroplating process that involves substituting silver, an expensive precious metal, with copper, which is more readily available.

At the world's leading trade fair for the process industry, ACHEMA in Frankfurt am Main, the Fraunhofer alliance for the chemistry lead market will present itself to the industry as a strong partner thanks to its combined expertise. From August 22 to 26, 2022, the participating institutes will showcase their current joint research activities, which focus on several areas.

As the world's largest copper exporter, Chile is encountering a growing number of sulfur-based ore layers containing toxic arsenic in its copper mines. Conventional strategies for separating and landfilling arsenic are proving limited in this area.

The Fraunhofer Institute for Microengineering and Microsystems IMM and the Fraunhofer Institute for Applied Optics and Precision Engineering IOF have developed various core components for the optical system of the hyperspectral satellite.

Everyone hears differently – this applies inside a vehicle too. That is why Fraunhofer IDMT in Oldenburg has developed a technological concept for fast and individual sound adaptation, which has been integrated into the multimedia system of vehicles from the Mercedes-Benz Group AG. At the heart of the development is an algorithm that easily adjusts the sound of music according to passengers’ wishes.

Until now, the most common way to dispose of green waste and sewage sludge has been to compost or incinerate it. However, using these materials to produce the valuable energy source hydrogen would make far more sense. A team of researchers at the Fraunhofer Institute for Manufacturing Engineering and Automation IPA is working towards this very goal.

Anyone who has ever ruined a cake knows that the correct identification of visually similar substances such as sugar and salt has great significance in food preparation. However, complex compositional analyses can also provide information about the quality, ripeness or freshness of products.

Forming presses are widely used as key elements of industrial production processes. From automotive technology to refrigerators, almost every product we encounter contains formed parts. The purchasing costs of these machines can reach double-digit millions, and it takes a great deal of time to set up and adjust precisely as needed. Given such a high level of investment, buyers expect machinery of this kind to keep running efficiently for a long time without any loss in quality.

The quality of industrial production processes is ensured by a large number of sensor-based individual inspections. This generates large amounts of data. However, until now, the information from the individual sensors has generally only been looked at in isolation.