1. TOGETHER WE CAN GO FURTHER THAN YOU EXPECT!
DR CHRISTOPHE MARQUETTE
Senior researcher at CNRS
christophe.marquette@univ-lyon1.fr
+33 (0)4 72 43 13 69
LÉA POURCHET
Research engineer
lea.pourchet@univ-lyon1.fr
+33 (0)6 86 01 57 74
CONTACTS
Bâtiment Curien
5, rue Victor Grignard
69100 VILLEURBANNE
VISIT US AT THE FAB PLATFORM!
http://fabric-advanced-biology.univ-lyon1.fr
2. THE PLATFORM IS SPECIALIZED
IN BIOLOGY/MATERIAL INTERACTION :
In the field of biochemistry,
especially diagnosis
(prototyping 3D lab-on-chip, novel
material for 3D medical devices,
biocompatible polymers, cell-size
3D printing...)
In the field of regenerative medicine
through dedicated living cells
and tissues printers.
HARDENEDMATERIAL
MATERIAL : PLA - ABS
TECHNICAL PRINTING : Thermo-extrusion
RESOLUTION MAX : 40 µm on the XY axis
MAX VOLUME : 200x200x250 mm
SOFTMATERIAL
MATERIAL : BIOPOLYMER
TECHNICAL PRINTING : Extrusion
RESOLUTION MAX : 40 µm on the XY axis
MAX VOLUME : 200x200x250 mm
MATERIAL : POLYACRYLATE HYDROGEL
TECHNICAL PRINTING : Photo-polymerisation
RESOLUTION MAX : 30 µm on the XY axis - 5 µm on the Z axis
MAX VOLUME : 200x200x250 mm
MATERIAL : BIOMOLECULE OR PHOTOPOLYMER
TECHNICAL PRINTING : Photo-polymerisation
RESOLUTION MAX : Down to the sub-micron
MAX VOLUME : 100x100x100 µm
MATERIAL : POLYACRYLATE RESIN
TECHNICAL PRINTING : Photo-polymerisation
RESOLUTION MAX : 30 µm on the XY axis -5 µm on the Z axis
MAX VOLUME : 104x76x200 mm
Collaboration via ANR (Agence Nationale de la Recherche),
FEDER (Fonds européen de développement régional),
FUI (Fonds Unique Interministériel), H2020.
Private-public partnership
Subcontracting
Research contract
Your interest is in the biomedical and
diagnostic field.
You are a research laboratory, a start-up, a large
industrial group, and you want to test, develop,
industrialize a new approach based on 3D printing.
LARGE RANGE OF AVAILABLE TECHNOLOGY
ACCESS