1 Science Technology and Innovation in the chemicals sector: the role of SusChem Andrea Tilche European Commission DG Research Head of the Unit « Environmental.

1

Science Technology and Innovationin the chemicals sector:

the role of SusChem

Andrea Tilche

European CommissionDG Research

Head of the Unit « Environmental Technologies and Pollution Prevention »

2

Why does R&D matter?

• 3% Action Plan (2003);

• Each Member State has set its own target for increased R&D intensity;

• Green Paper on ERA (2007);

3

The landscape is

changing

4 EU-27 (1) US JP CN KR Others

12.7

25.029.1

3.6

3.5

34.4

38.4

2.9

11.4

15.9

10.1

13.0

0

10

20

30

40

50

60

70

80

90

%

1993 2005

World shares of expenditure on R&D

5

Exports of High - tech products

EU-27 (1)

JP

CN

US

KR

0

5

10

15

20

25

30

1999 2000 2001 2002 2003 2004 2005

%

6

China leads computing exports

EU-27 (1)

JP

CN

US

KR

0

5

10

15

20

25

30

1999 2000 2001 2002 2003 2004 2005

%

7

EU R&D-intensity remains at structural lower level

8

Stagnating R&D intensity in the EU

JP

KR

US

EU-27EU-25

CN

RU

0,0

0,5

1,0

1,5

2,0

2,5

3,0

3,5

1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005

R&

D in

ten

sity

(G

ER

D a

s %

of

GD

P)

9

Although some MS recorded impressive progress

EU-25EU-27

CZ

DKDE

AT

FI

0,0

0,5

1,0

1,5

2,0

2,5

3,0

3,5

4,0

1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006

%

Progress not monopoly of ‘catching-up’ countries (e.g.CZ)

Also high R&D intensive countries were able to further increase their high R&D intensity

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R&D intensity: 4 groups of countries

R&D intensity

Belgium

Bulgaria

Czech Republic

Denmark

Germany

Estonia

Ireland

Greece

Spain

France

Italy

Cyprus

Latvia

Lithuania

Luxembourg

Hungary

Malta

Netherlands

Austria

Poland

Portugal

Romania

Slovenia

Slovakia

Finland

Sweden

UK

EU-27

SI

SK

EU-27

CZ

NL

DK

UK

EL

MT

FI

ES AT

RO IT

DE

LV

PL

IE

LU

PT

BG

FR

HU

EE

CY

LT

SEBE

-6

-4

-2

0

2

4

6

8

10

12

0,0 0,5 1,0 1,5 2,0 2,5 3,0 3,5 4,0

R&D intensity in 2005

Gro

wth

of

R&

D i

nte

ns

ity

, 2

00

0-2

00

5

Falling behind Losing momentum

Pulling aheadCatching up

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Distance-to-target for each individual Member State

0,0 0,5 1,0 1,5 2,0 2,5 3,0 3,5 4,0

EU-27 (1)

Romania

Cyprus

Slovakia

Poland

Latvia

Malta

Greece

Lithuania

Portugal

Hungary

Estonia

Italy

Spain

Slovenia

Ireland

Czech Republic

Luxembourg

UK

Netherlands

Belgium

France

Austria

Denmark

Germany

Finland

Sweden

Situation in 2005 Target 2010

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The gap is mainly in the private sector

13

Is low R&D-intensity a result of lack of

dynamism of EU’s industrial structure ?

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• 85% gap is due to low business investment

• structural differences between EU-US – medium-tech industries dominate in the EU

15

Sectoral composition of R&D in EU and US (2005)

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BERD(Business enterprise expenditure on R&D)

and Value Added

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BERD as % of Value Added

18

BERD of SMEs

However, R&D intensity is 0.34% in the EU and 0.68% (the double) in the US

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Share of World top 1000 Companies (in terms of market

capitalisation) created since 1980

0%

5%

10%

15%

20%

25%

EU US

Substantial differences in growth path of high-tech SME’s …

70% of these US large Cies created after 1980 are active in ICT sectors

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Public and private R&D are fully

complementary

21

Countries with high involvement of private sector in funding of R&D have also the highest levels of government-funded R&D

DK

UK

FISE

BG

FR

AT

SIPL

EU-27

CZ

BE

LT

EL

MT

HU

ES

LU

PT

IT

CY

EE

NL

SK

DE

IE

LV

RO

IS

IL

NO

TR

CH

HR

0,0

0,2

0,4

0,6

0,8

1,0

1,2

0,0 0,5 1,0 1,5 2,0 2,5 3,0 3,5

GERD financed by business sector (as % of GDP)

GE

RD

fin

an

ce

d b

y g

ov

ern

me

nt

(as

% o

f G

DP

)

22

Research Excellence: EU remains second behind the US, but

scores relatively well in traditional disciplines

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Research excellence: the EU is world’s first producer of scientific knowledge

1,3

1,3

1,3

1,8

2,0

1,7

3,6

2,8

4,4

3,8

9,4

33,6

39,3

1,2

1,6

1,7

1,8

2,4

2,7

2,8

2,9

4,5

6,4

8,7

32,8

38,1

0 5 10 15 20 25 30 35 40 45

Israel

Taiwan

Brazil

Sw itzerland

India

Republic of Korea

Russia

Australia

Canada

China (2)

Japan

US

EU-25

2000 2004

24

Citation index

25

However, …

Other parts of the world are getting to be more specialised in chemistry

26

Knowledge flows from Science to

Technology weaker in the EU

27

Technological innovations rely more on US science than on EU science

29,8

22,3

53,4

64,2

0,0

10,0

20,0

30,0

40,0

50,0

60,0

70,0

EPO patents USPTO patents

%

EU-25EU-25 US US

This graph:

Share of EU and US scientific publications cited in biotech patents

Data in other technological fields show similar patterns

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From Science to high-tech, high-growth

industries: the case of nanotechnology

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Public funding of nanotech R&D similar or higher than competitors

Figure I.6.1 Public and private funding of nanotechnology R&D, 2006

665

1275

1490500

975 1091

1150 1931

1704

631

0

500

1000

1500

2000

2500

3000

3500

4000

EU US Japan Others

US

$ (m

illio

ns)

EC / US federal Government Private

30

Nanotech companies are bigger in the US

Average size of Nanotech companies in leading countries (turnover in US$ million)

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How to reverse this trend?

• INNOVATION is the only European asset that can make the difference

• Open innovation schemes• More investments in high-tech sectors• Start-up programmes in Universities

linked to chemical entrepreneurship programmes

• Promotion of Public-Private-Partnerships• Better exploitation of funding

opportunities along the innovation chain

• Focus on excellence – clusters and regions

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Technology platforms: a key instrument for a new competitiveness policy• They build strategic partnerships between the public and

private sector, the academia, the civil society• Through this, they should reduce the risk in investing on

research, creating a better environment for the increase of private investments

• They provide roadmaps for planning “incremental” innovation

• They act as fora for strategic thinking towards “radical” innovation

• And improve the diffusion of sustainable technologies also suggesting how to overcome regulatory barriers, to define new procurement rules, economic instruments, etc.

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How Technology Platforms may contribute to FP7

• Technology Platforms are generating the political momentum for a stronger industrial participation in the Framework Programme

• Several TPs, among which the SusChem, are cited in the FP and in the SP text as one of the sources of the FP7 research agenda

• Major contributions are given in the phase of preparation of the work programmes

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The importance of SusChem

• It was able to mobilise stakeholders around key objectives

• It produced important and substantial documents, from the vision, to the strategic research agenda, to the implementation plan

• It should evolve through a more capillar organisation at national/regional level, in order to better involve SMEs and local actors

• It should extend its scope towards innovation leadership issues (possible recommendation from the HLG)

Thanks for your attention!

andrea.tilche@ec.europa.eu