Praxisbericht eines Antragsstellers in H2020 Gute Anträge, Kriterien, Gutachterfokus Dr. Helge Bohlmann
Markets: Life science, security, consumer, communication, B2B Customer specific components and subsystems Microparts Microfluidics Microsystems RMPD /3D-CSP Production technologies: Polymer based, additive production process, resolution and accuracies down to the one micron range, from low to high volume quantities Au, Ag, Al, Cr, Cu, Ni, Sn, Dies, SMDs, Materials (UV curable liquids)
High precision plastic parts and microparts Source: Bürkert Source: Bürkert
Microfluidic applications Top: Different microfluidic Lab-on-Chip structures Bottom: Fluidic chip with integrated electrodes, sealing ring and standard connector
Microfluidic applications Top: Section of a 36000 well plate structure and related dispenser Bottom: Lab on a chip system for virus detection in human blood
Packaging applications in Photonics Top: Housing parts for VCSELs Bottom: 3D-CSP packaged VCSEL in standard 0603 format
Packaging applications for ultra high frequency requirements, automotive lighting, and much more. Source: CRF
Involvement in R&D EC projects FP5 MICROMAKING FP6 Healthy Aims, INOS FP7 ULTRA, Light-Rolls, PRIAM, BRAAVOO H2020 RAIS, SAPHELY, CYTOWATER Involvement in EC strategy and Technology Platforms Nanofutures (Board member, Advisory Group)
ULTRA solution: miniaturized THz imager/spectrometer The instrument consists of 3 modules : THz transmitter sample holder THz receiver transmission and reflection configurations Samples of any kind: tissue, cells, or gasses... Variable distance between lens and sample accommodating different sample holders. Off-chip Transmitter and Receiver operated up to 280 GHz. On-chip Transmitter and Receiver functional up to 500 GHz. Size Transmitter/Receiver: 1 cm x 1 cm x 0.5 cm
Light-Rolls Technology Platform Combination of production processes: : RMPD -Rotation Self assembly of chips Printing Roll-to-Roll based Pilot line and user training
Grundlegendes Strategie: Unterstützung der Geschäftsführung Einbindung in F&E-Strategie Mittelfristiger Planungsansatz Maßnahmen: Arbeitsprogramme (Auswahl, Deadline, SoA, = eigener Nutzen) Sichtbarkeit => Anfragen, KMU gesuchte Partner Konsortium prüfen Impact Beratung
Grundlegendes
H2020: Example NMP Topic -NMP 4 2014: High definition printing of multifunctional materials : Scope: Proposals should address industrial needs by developing and demonstrating in relevant industrial environments high throughput printing technologies (possibly in combination with other deposition technologies) with higher definitions (down to nanoscale) utilising a wider spectrum of multifunctional materials. Technical challenges relate to developing suitable printing technologies for high resolution and a wide range of materials; achieving high overlay registration accuracy, especially for multi-material applications; and obtaining the right functionality after drying/sintering. Pilot line setting should be used to verify production speed and reliability, as well as sufficient yield, quality and functionality of the intended application. - Flexible LED-display systems (LED, OLED, Glass,.) - Lab-on-a-Chip components - New micro-energy storage components - Other
H2020 -ICT 2 2014: Smart System Integration Scope: To advance the state of the art of heterogeneous integration of micro and nanotechnologies (nanoelectronics, micro- electro-mechanic, magnetic, photonic, micro-fluidic, electrochemical, acoustic, bio/chemical principles and microwave technologies) into smart systems. Work will be driven by industrial requirements and specifically target multidisciplinary R&D in the following areas: - Miniaturised systems based on high density 3-dimensional heterogeneous integration. - Autonomous deployable smart systems that include efficient energy management (Zero Power technologies) and energy harvesting from their operating environment, - Advanced Smart systems with multi-functional properties, including sensing, storing, processing, actuation and ultra-wideband communication.
Grundlegendes Strategie: Unterstützung der Geschäftsführung Einbindung in F&E-Strategie Mittelfristiger Planungsansatz Maßnahmen: Arbeitsprogramme (Auswahl, Deadline, SoA, = eigener Nutzen) Sichtbarkeit => Anfragen, KMU gesuchte Partner
FP7 <-> H2020 IMPACT, IMPACT, IMPACT Administrativ einfacher: Internet tools Wegfall unterschiedlicher Förderquoten R&D/DEMO,... Längere Reportingperioden (weniger Papier) GA: Alle Verträge = ein pdf Elektronische Unterschriften Coop-Vertrag: DESCA-Modell Standard Nachteilig: Vorfinanzierung/Anzahlung muss länger reichen
Gewinn durch Antragstellung und Projektabwicklung Neue Netzwerke Lernen über Stand der Forschung und Entwicklung Lernen über Marktbegleiter Geschäftsfeldentwicklung Neues probieren Sehr gute Kofinanzierung im Erfolgsfall H2020 noch industrieller Zahlreiche Instrumente, auch für kleine Konsortien Eigene Bewilligungsquote 20% Kleine Konsortien mit 4-7 Partnern bevorzugt.
www.microtec-d.com Bismarckstraße 142b 47057 Duisburg Tel: +49 203 306 2050 Fax: +49 203 306 2069 Helge.Bohlmann@microtec-d.com