Viele Medizinprodukte bedürfen einer hydrophoben Oberfläche zur Vermeidung der Anhaftung von Zellen oder zur Optimierung der Gleit- und Reibeigenschaften. Das Fraunhofer IFAM hat fluorfreie Beschichtungen entwickelt, welche die Eigenschaften der bisher nutzbaren Fluorpolymere übernehmen, wie die hydrophobe Beschichtung auf einem Kunststoffvlies zeigt. © Fraunhofer IFAM / Many medical products require a hydrophobic coating to prevent cells from sticking or to optimize gliding and friction properties. Fraunhofer IFAM has developed fluorine-free coatings that mimic the previously usable properties of the fluoropolymers that were, as the hydrophobic coating on a nonwoven synthetic fabric shows. © Fraunhofer IFAM

Die vakuumultraviolette Modifizierung von Silikonoberflächen ist ein möglicher Ersatz zur Gasphasen-Fluorierung. Die schmutzabweisende und verschleißresistente Funktionsschicht erlaubt vielfältige Anwendungen in der Medizintechnik von haptisch angepassten Prothesen bis hin zu schmutz-abweisenden Beatmungsmasken. Die behandelte Silikonhand (li.) demonstriert die Vermeidung der Anhaftung von Schmutzpartikeln an deren Oberfläche. © Fraunhofer IFAM/Wolfgang Hielscher / Vacuum ultraviolet (VUV) modification of silicone surfaces is a possible substitute for gas-phase fluorination. The dirt-repelling, wear-resistant functional coating permits a wide range of applications in medical technology, from prostheses with an adjusted feel to dirt-repellent respiratory masks. The treated silicone hand (left) demonstrates how the coating prevents dirt particles from sticking to the surface. © Fraunhofer IFAM/Wolfgang Hielscher

21.11.2024
‌
Science

How To Replace PFAS in Medical Technology

Hardly any other chemical substance can compete with PFAS, due to their unique properties. That explains why it is so hard to find a replacement for these toxic “forever chemicals”, which accumulate in the environment and do not break down over time. A team at the Fraunhofer Institute for Manufa…

Das Fraunhofer IPT integriert den gesamten Prozess der Herstellung extrazellulärer Vesikel in seine vollautomatisierte AUTOSTEM-Laborplattform. © Fraunhofer IPT

19.11.2024
‌
Science

Robuste automatisierte Produktion von Stammzellen für neue Therapeutika

Innovationsschub für NRW-Biotechnologie

Stammzelltherapien bieten ein enormes Potenzial für die individuelle Behandlung degenerativer und tumorbedingter Erkrankungen. Mit dem kürzlich gestarteten Forschungsprojekt »RauPE« (Robuste automatisierte Produktion von therapeutisch einsetzbaren extrazellulären Vesikeln) soll die Herstellung…

Zellenfallenarray: Aus Silizium gefertigte Zellfallen (links). In den Zellfallen (rechts) isolierte Zellen (grün) und vorbeifließende Zelle (Schlangenlinie). © Fraunhofer IMM / Fig. 2 Cell trap array: cell traps made of silicon (left). At right: cells isolated in the cell traps (green) and cell flowing past them (serpentine line). © Fraunhofer IMM

Zellfalle mit Düse: Durch geeignete Struktur der Zellfalle wird die Einzelzelle aus dem fließenden Medium vom Rest der Zellen isoliert und kann gedruckt werden. © Fraunhofer IMM / Cell trap with nozzle: The structure of the cell trap is designed to isolate the individual cell from the rest of the cells in the fluid medium, so it is ready to be printed. © Fraunhofer IMM

18.11.2024
‌
Science

Single-cell technology

Targeted Printing

Bright prospects for personalized medicine: Experts from the Fraunhofer Institute for Microengineering and Microsystems IMM harness their know-how in microfluidics and single-cell technologies to print organ structures.

Single-cell technologies play a key role in studying and characterizing cells. Dr…

Für Spitzenforschung im Chipdesign entsteht auf dem Campus Süd das KIT Chipdesign House. (Foto: Edelweiss – Fotolia) / The KIT Chipdesign House to be established on KIT’s Campus South will boost cutting-edge chip design research. (Photo: Edelweiss – Fotolia)

15.11.2024
‌
Science

Chipdesign House at KIT Founded at KIT – Institution to Accelerate Cutting-edge Chip Design Research in Baden-Württemberg

KIT Chipdesign House to Boost European Chip Production

Be it smartphones, computers, or cars: Nearly all modern technologies are based on powerful microchips. Demand by far exceeds production in Germany. Leading semiconductor manufacturers are mostly based in Asia and North America, from where they supply producers worldwide with their microchips. In or…

Wafer im Labor bei Merck (Foto: Bernd Hartung)

13.11.2024
‌
Science

Merck and Intel launch academic research program in Europe, involving eleven scientific institutions from six European countries.

Merck and Intel Launch Academic Research Program in Europe for More Sustainable Semiconductor Manufacturing

– Following the announcement of the multidisciplinary research program last year, the selection process for funded projects has been completed
– Six projects involving eleven scientific institutions from six European countries are supported by Merck and Intel
– The focus is on the application of Artif…

Viel Verantwortung: Eine Mitarbeiterin der MHH-Apotheke bei der Arbeit im Reinraum. (Copyright: Anna Junge/medjunge.de) / A lot of responsibility: a member of staff at the MHH pharmacy working in the clean room. (Copyright: Anna Junge/medjunge.de)

Besondere Hygienebedingungen: Das Medikament für die Gentherapie wird in einem sogenannten Reinraum hergestellt. (Copyright: Anna Junge/medjunge.de) / Special hygiene conditions: the drug for gene therapy is produced in a so-called clean room. (Copyright: Anna Junge/medjunge.de)

11.10.2024
‌
Science

The MHH is one of the first institutions in Germany to be allowed to perform a new innovative treatment for hemophilia A and B.

Using gene therapy to combat hemophilia

Cell and gene therapies are on the rise. This is a new ray of hope for people with previously untreatable or hardly treatable diseases. Another novel therapeutic method is now being added: gene therapy for hemophilia. The Hemophilia Center at the Hannover Medical School (MHH) is one of the first in…

Mit dem patentierten EVape-Prototyp können die Forschenden am Fraunhofer ITEM E-Liquids kontrolliert verdampfen, um die entstehenden Emissionen zu analysieren und anschließend genau toxikologisch zu bewerten. © Fraunhofer ITEM, Ralf Mohr / Researchers at Fraunhofer ITEM can use the patented EVape prototype to vaporize e-liquids under controlled conditions in order to analyze the emissions generated during the process and then conduct a detailed toxicological assessment. © Fraunhofer ITEM, Ralf Mohr

Zusammen mit ihrem Team am Fraunhofer ITEM hat Dr. Stefanie Scheffler EVape entwickelt. Das portable Gerät kann dabei helfen, Verbraucher von E-Liquids vor gesundheitlichen Risiken zu schützen. © Fraunhofer ITEM, Ralf Mohr / Dr. Stefanie Scheffler developed EVape in collaboration with her team at Fraunhofer ITEM. The portable device can help protect consumers of e-liquids from health risks. © Fraunhofer ITEM, Ralf Mohr

03.10.2024
‌
Science

Toxicology

EVape helps improve consumer safety in the e-cigarette segment

Electronic cigarettes, or vapes, are commonly viewed as less harmful to people’s health than tobacco cigarettes. And yet, they are not without health drawbacks. For many ingredients, it is unknown how they will behave when heated. Since the temperatures inside e-cigarettes vary widely, different p…

v.l.n.r. Sebastian Gemkow (links, Sächsischer Staatsminister für Wissenschaft, Kultur und Tourismus), Prof. Dr. Harald Kuhn (Institutsleiter, Fraunhofer-Institut für Elektronische Nanosysteme ENAS) und Thomas Schmidt (Sächsischer Staatsminister für Regionalentwicklung). © Fraunhofer ENAS / From left to right: Sebastian Gemkow (left, Saxon State Minister for Science, Culture, and Tourism), Prof. Dr. Harald Kuhn (Director, Fraunhofer Institute for Electronic Nano Systems ENAS), and Thomas Schmidt (Saxon State Minister for Regional Development) © Fraunhofer ENAS

28.09.2024
‌
Science

Free State of Saxony Supports New Semiconductor Test and Reliability Center in Chemnitz with European Union Funds

The Fraunhofer Institute for Electronic Nano Systems ENAS in Chemnitz will receive 9.51 million euros from the European Regional Development Fund (ERDF) and the "Just Transition Fund" (JTF) for the establishment of a modern competence center for the testing and reliability evaluation of semiconducto…

26.09.2024
‌
Automation

Robuste automatisierte Produktion von Stammzellen für neue Therapeutika

Innovationsschub für NRW-Biotechnologie

Stammzelltherapien bieten ein enormes Potenzial für die individuelle Behandlung degenerativer und tumorbedingter Erkrankungen. Mit dem kürzlich gestarteten Forschungsprojekt »RauPE« (Robuste automatisierte Produktion von therapeutisch einsetzbaren extrazellulären Vesikeln) soll die Herstellung…

Der kryogene On-Wafer-Prober am Fraunhofer IAF charakterisiert vollautomatisch bis zu 25 ganze 200-mm- oder 300-mm-Wafer mit Bauelementen für Quantencomputer. © Fraunhofer IAF / The cryogenic on-wafer prober at Fraunhofer IAF enables fully automatic characterizations of up to 25 whole 200-mm or 300-mm wafers with devices for quantum computing and sensing. © Fraunhofer IAF

Setup zur RF-Charakterisierung unter kryogenen Bedingungen. © Fraunhofer IPMS / Setup for RF-characterization under cryogenic conditions. © Fraunhofer IPMS

Das ARCTIC-Konsortium. © imec / The ARCTIC-Consortium. © imec

26.09.2024
‌
Science

Fraunhofer IPMS and IAF collaborate with 34 European partners in project ARCTIC

EU-project joins forces towards the era of scalable control technology for quantum processors

In order to make quantum computers usable, developing the control technology is at least as important for scaled systems, yet it is still in its infancy. Project ARCTIC brings together 36 international partners from industry, academia and leading RTOs to establish a complete and comprehensive Europe…

All publications for the rubric Science

How To Replace PFAS in Medical Technology

Robuste automatisierte Produktion von Stammzellen für neue Therapeutika

Innovationsschub für NRW-Biotechnologie

Single-cell technology

Targeted Printing

Chipdesign House at KIT Founded at KIT – Institution to Accelerate Cutting-edge Chip Design Research in Baden-Württemberg

KIT Chipdesign House to Boost European Chip Production

Merck and Intel launch academic research program in Europe, involving eleven scientific institutions from six European countries.

Merck and Intel Launch Academic Research Program in Europe for More Sustainable Semiconductor Manufacturing

The MHH is one of the first institutions in Germany to be allowed to perform a new innovative treatment for hemophilia A and B.

Using gene therapy to combat hemophilia

Toxicology

EVape helps improve consumer safety in the e-cigarette segment

Free State of Saxony Supports New Semiconductor Test and Reliability Center in Chemnitz with European Union Funds

Robuste automatisierte Produktion von Stammzellen für neue Therapeutika

Innovationsschub für NRW-Biotechnologie

Fraunhofer IPMS and IAF collaborate with 34 European partners in project ARCTIC

EU-project joins forces towards the era of scalable control technology for quantum processors

Better informed: With YEARBOOK, NEWSLETTER, NEWSFLASH and EXPERT DIRECTORY