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Holistic digital-to-physical prototyping and production pilot for microfluidic MEMS

Objectif

The project aims at a holistic new design strategy, coordinated pilot lines and business model for the prototyping, fabrication and commercialization of polymer-based microfluidic systems. It stems from the recognition that a microfluidic chip is a key part of a microfluidic MEMS, but only a part. Many limitations to fast prototyping, industrialization and ultimate performances lie not in the chip itself, but in the world-to-chip connections and integration of multiple external components. We shall address in a single strategy the streamlined construction of whole microfluidic systems, starting from existing pilot lines in injection moulding, 3D printing and instrument construction. This will specific innovations. First, the resolution of 3D printing will be increased by a factor at least 10, down to 1~3µm, with a throughput 10 to 100x higher than that of current high resolution 3D printing machines, to support the flexible production of chips with complex 3D architectures. New soft, bio, environment-friendly and/or active materials will be integrated in the production chain using a technology patented by the partners. Large-scale markets requiring mass production at the lowest cost will be addressed by a fully integrated pilot line, streamlining injection moulding of raw chips, reagents and components integration, sealing and quality control. Inter-compatibility between 3D printing and injection moulding, regarding architectures and materials, will be developed to accelerate the prototype to product value chain. After development and upscaling, the technology will be demonstrated and qualified in operational environment by end-users with lab-on-chip applications in health (cancer diagnosis, organ-on chip) and environment (water control). Partners jointly have the production lines onto which the project’s innovation will be readily integrated, helping microfluidics to become a major component of the 4th industrial revolution.
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Coordinateur

FLUIGENT SA

Adresse

57-77 Avenue De Fontainebleau
94270 Le Kremlin-Bicetre

France

Type d’activité

Private for-profit entities (excluding Higher or Secondary Education Establishments)

Contribution de l’UE

€ 1 290 601,38

Participants (10)

Trier par ordre alphabétique

Trier par contribution de l’UE

Tout développer

MYPA INYECCION SL

Espagne

Contribution de l’UE

€ 296 684,50

MICRO RESIST TECHNOLOGY GESELLSCHAFT FUER CHEMISCHE MATERIALIEN SPEZIELLER PHOTORESISTSYSTEME MBH

Allemagne

Contribution de l’UE

€ 429 142

SCULPTEO

France

Contribution de l’UE

€ 606 375

microLIQUID sl

Espagne

Contribution de l’UE

€ 815 500

EV GROUP E. THALLNER GMBH

Autriche

Contribution de l’UE

€ 888 072,50

TECH2MARKET SPOLKA Z OGRANICZONA ODPOWIEDZIALNOSCIA

Pologne

Contribution de l’UE

€ 200 830

CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS

France

Contribution de l’UE

€ 1 611 616,25

DUBLIN CITY UNIVERSITY

Irlande

Contribution de l’UE

€ 520 467,50

T.E. LABORATORIES LIMITED

Irlande

Contribution de l’UE

€ 332 062,50

MYPA MOLDES SOCIEDAD LIMITADA

Espagne

Contribution de l’UE

€ 161 630

Informations projet

N° de convention de subvention: 760927

État

Projet en cours

  • Date de début

    1 Novembre 2017

  • Date de fin

    31 Octobre 2020

Financé au titre de:

H2020-EU.2.1.2.

  • Budget total:

    € 9 304 795

  • Contribution de l’UE

    € 7 152 981,63

Coordonné par:

FLUIGENT SA

France