GRAPHENE FLAGSHIP. – Working together to combine scientific excellence and
technological impacts. Jari Kinaret. Chalmers University of Technology.
GRAPHENE FLAGSHIP – Working together to combine scientific excellence and technological impacts Jari Kinaret Chalmers University of Technology Sweden
Simply about graphene:
Simply about graphene:
Vision: Graphene – future in a pencil trace The flagship will create a large focused research community that exploits the unique properties of graphene and related twodimensional materials to create new innovations and boost economic growth. Numerous existing European and national programs on graphene (EU, ESF, Germany, UK, Spain, Sweden, Denmark, Poland…): fragmented community with many subcritical nodes.
Graphene research: explosive growth since 2004
Impact: translational nanotechnology Andrea’s flexible screen video
(Video: A. Ferrari, Cambridge)
ICT consumer and high performance electronics, optoelectronics
(Figure: BASF)
(Figure: Chalmers) (Figure: C. Dekker, Delft)
MATERIALS ultralight, strong composites for, e.g., aerospace and cars, conductive inks
ENERGY advanced batteries and supercapacitors for cars and portable appliances
HEALTH Rapid electronic DNA sequencing, new biosensors
Graphene funding in Europe
Member states
EC
Graphene in the world • Publications almost equally split Europe/Asia/US
• Europe lacking behind in patents → Action needed
42
24
5
33
12
49
23
4
43
42
6
2
2
5
Synthesis
Energy
Display
Nanodevices
Composites
Asia United States Europe
Success = Academia + Industry • Disruptive technology ‐ large gap between laboratory and market place: risk is too large for individual companies or countries • Integrate the entire value chain from materials to components and systems: minimize risk, take benefit of low‐ hanging fruits • The most economical option: only a coordinated effort will eliminate fragmentation and create synergies between different areas • Great corporate interest: Airbus, Aixtron, Alcatel‐Lucent, Antolin, BASF, Bosch, FIAT, NOKIA, Onera, Oxford Instruments, Philips, Repsol, ST Microelectronics, Volvo… + many SMEs
graphene
Existing technologies
time
now cost
risk now
time
medical applications: drug delivery; lab‐on‐chip; DNA sequencing
batteries; supercapacitors conductive inks; etc.
graphene as next Si
composites; barrier films
graphene applications ultra‐high frequency electronics; optoelectronics
MEMS; various sensors
flexible LCD and LED wall lightning
graphene derivatives; e.g., 2D analogue of Teflon
FP7 focus: communication Information
New, more versatile and powerful information processing and communication devices
Physical
Smartforvision (BASF & Daimler)
New structural and functional composites, batteries, solar cells etc., integrable in larger systems
Implementation: CP‐CSA • Open process: over 550 academic and industrial groups from 29 European countries expressed interest to join the Flagship • Authoritative Scientific and Technological Roadmap was compiled based on thousands of oral and written contributions • The roadmap forms the basis for the research program of the flagship: 11 scientific and technological work packages • Initially, the CP‐CSA will include about 100 groups representing about 75 legal partners; additional groups will join later through a competitive call • Demonstrated alignment with national priorities and synergies with other disciplines (NMP, Transport, Health) and programs (Marie Curie, ERC)
CP‐CSA GRAPHENE CP‐CSA Consortium Consortium Consortium Agreement Agreement
Strategic Strategic Advisory Advisory Council Council
R&D Partners R&D Partners
Coordinator & Coordinator & Management team Management team
(~75 Industry & (~75 Industry & Academic org.) Academic org.)
EC EC Academia Academia Industry Industry
Scientific Panel Scientific Panel (Coordinator and Work Package Leaders) (Coordinator and Work Package Leaders)
Fundamental science
Materials
Environment & Health
Opto‐ electronics
Production
Spintronics R&D Work Packages
Sensors
Energy applications
Nano‐ composites
High‐speed electronics
Flexible electronics
Strategic Advisory Council Konstantin Andre Geim Novoselov
Tapani Ryhänen NOKIA HELSINKI
2010
2010
1985
MANCHESTER
PARIS
Klaus von Klitzing STUTTGART MPI
Albert Fert THALES 2007
Byung Hee Hong Seoul National U.
TOULOUS E MADRID Gareth Williams AIRBUS Francisco Guinea CSIC
Luigi Colombo Texas Instruments
Different maturity levels Flexible electronics ‐ NOKIA
Energy applications ‐ CEA
Nano‐ composites ‐ CNR
Production ‐ Aixtron
Tier 3
Spintronics ‐ U. Groningen
High‐speed electronics ‐ AMO GmbH
Opto‐ electronics ‐ U. Cambridge
Sensors ‐ TU Delft
Tier 2
Fundamental science ‐ U. Lancaster
Materials ‐ CSIC
Environment & Health ‐ U. Trieste
Tier 1
Scientific and technological roadmap
Scientific and technological roadmap
Mission We will take graphene and related layered materials from a state of raw potential to a point where they can revolutionize multiple industries − a faster, thinner, stronger, flexible, and broadband revolution. Our program will put Europe firmly at the heart of the process, with a manifold return on the investment in terms of scientific discoveries, technological innovation and economic exploitation.
For more information, see www.graphene‐flagship.eu
Graphene flagship
Graphene flagship
Thank you for your attention!
