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Here you can see our projects that are open to the public. Filter according to your interests.
As part of a European joint research project, under the umbrella of the Clusters for Application and Technology Research in Europe on Nanoelectronics (CATRENE), a compact sensor system has been developed with nine sensory freedom levels – comprising a 3D gyroscope, a 3D linear acceleration sensor and a 3D magnetometer.
In the "ConCaMis" project, a versatile micro camera as an example of a multifunctional microsystem was developed as part of the PRONTO production platform from the leading edge "MicroTEC Südwest" cluster. To produce application-specific lenses at low cost and in low volumes, aspherical lenses (outer diameter 3 mm) made of polycarbonate were costed, made using a hot-stamping process and held within synthetic sleeves (created with rapid prototyping).
The goal of the S.O.N.D.E. research project is the development of mobile, fully integrated diagnostics systems for the detection of pathogens and B-agents (because analysis methods being using currently are frequently based on stationary analysis devices). The relevant investigations are both time-consuming and inflexible.
For the continuous monitoring of biotechnological processes, we have developed a method that continuously monitors the DNA of microorganisms in a bioreactor.
The aim of the project is to develop a spectroscopic process analysis system for high-throughput processes in the beverage industry. To this end, a highly innovative process calibration module is being developed for the leap into the international market, with which it is possible to calibrate beverages directly on site at the bottler.
A Modular Sensor Communication Technology Adapter enabling Industrial Internet of Things
Development of an automated platform technology for in vitro experiments with three-dimensional microtumors (tumoroids), which will be used in the clinical environment for a more targeted personalized tumor therapy.
The project SILENT aims at the development of a process for the fabrication of conductive silver and gold structures on cost-efficient temperature-sensitive thermoplastics by means of digital printing technologies.
Additive 3D-Fertigungsverfahren und die Funktionalisierung der Bauteile erlangen in der Industrie im Zuge der zunehmenden Individualisierung von Produkten immer größere Bedeutung. Die Integration von Leiterbahnstrukturen kann hierbei z.B. durch das sogenannte LPKF-ProtoPaint®-Verfahren realisiert werden, bei dem das additiv gefertigte Bauteil mit einem LDS-Lack überzogen wird, der dann selektiv durch Laserstrukturierung für die außenstromlos chemische Metallisierung aktiviert wird.
ITER (International Thermonuclear Experimental Reactor) ist ein wichtiger Meilenstein auf dem Weg zur wirtschaftlichen Nutzung der Kernfusion als Energiequelle.
I4KMU ist der kompetente Ansprechpartner für KMU zur Fördermaßnahme »Industrie 4.0-Testumgebungen – Mobilisierung von KMU für Industrie 4.0« im Auftrag des BMBF. Damit mögliche Innovationsbarrieren vermieden werden und um besonders KMU anzusprechen.
