bright & leading
DESCRIPTION
It is with great pride that we present to you the first edition of Bright & Leading, the new magazine about Amsterdam Science Park. The purpose of this magazine is to take you behind the scenes and show you the daily work and lives of the 10,000+ students, scientists and business people that make the park what it is today.TRANSCRIPT
SCIENCE MEETS BUSINESS
COLLABORATION BY DESIGN
AMSTERDAM SCIENCE PARK, A VIBRANT MELTING POT
AMSTERDAM SCIENCE PARK PRODUCES ENTERPRISING SCIENTISTSFOUR TOP STUDENTS TALK ABOUT THEIR
ENTHUSIASM FOR SCIENCE AND ENTREPRENEURSHIP
HOME BASE FOR ENTREPRENEURSFROM HERE, THEY ASTONISH THE WORLD WITH
INNOVATION AND SCIENTIFIC BREAKTHROUGHS
0422
26
06VERONIQUE DE BRUIJN ICOS CAPITAL, PHOTANOL
10A NETWORK OF MEETING PLACES
AMSTERDAM SCIENCE PARK MAGAZINE 01 / 2014
BRIGHT&LEADING
08INTERVIEW WITH ROBBERT DIJKGRAAF
“THE NETHERLANDS IS A VERY ATTRACTIVE COUNTRY ON THE GLOBAL MAP. WE WOULD DO WELL TO SPOTLIGHT THAT FACT MORE.”
PAGE 2 | CONTENTS
CONTENTS
Bright & leading is a publication of Amsterdam Science Park, [email protected]
Concept, design and realisation: MASC Company Editors: Amsterdam Science Park, Jolien Alberdingk Thijm, NRI, MASC Company Translation: Heather Lane, Megan Roberts (page 4 collaboration by design) Photography: Remco Bohle, Pol Fotografie, Bram Belloni, High and low fotografie, Nikhef/Peter Ginter Circulation: 5000
No rights can be derived from this publication.
WWW.AMSTERDAMSCIENCEPARK.NL
04 COLLABORATION BY DESIGN AMSTERDAM SCIENCE PARK, A VIBRANT
MELTING POT
06 AMBITIOUS ENTREPRENEURS THE SUCCESS STORIES OF THREE SPIN-OFFS
08 VIDEO CALL WITH ROBBERT DIJKGRAAF
10 NETWORK OF MEETING PLACES AN IMPRESSION OF THE INSPIRING AND
INVITING MEETING PLACE THAT CONNECTS SCIENCE AND ART
11 HARD FACTS & FIGURES PARK
20 SCIENCE AND COLLABORATION HOW TOP RESEARCHERS COLLABORATED
INTERNATIONALLY TO FIND THE HIGGS PARTICLE AND MORE SUCCESS STORIES
22 AMSTERDAM SCIENCE PARK PRODUCES ENTERPRISING SCIENTISTS
FOUR TOP STUDENTS TALK ABOUT THEIR ENTHUSIASM FOR SCIENCE AND ENTREPRENEURSHIP
24 RUMOURS AROUND AMSTERDAM SCIENCE PARK
26 HOME BASE FOR ENTREPRENEURS
FROM HERE, THEY ASTONISH THE WORLD WITH INNOVATION AND SCIENTIFIC BREAKTHROUGHS
08 ROBBERT DIJKGRAAF HIS VISION OF SCIENCE AND AMSTERDAM SCIENCE PARK
CREDITS
11-18 HARD FACTS & FIGURES PARK - LOCATION- FACTS & FIGURES- MAP AMSTERDAM SCIENCE PARK - SETTING UP A BUSINESS AT
AMSTERDAM SCIENCE PARK
INTRODUCTION | PAGE 3
A few years ago the Amsterdam Science Park was considered Amsterdam’s best kept secret, but now it has developed into a knowledge area of international allure, regarded by many – including the Mayor and Municipal Executive – with great admiration. The first fundamental research institutes, which as you will read in this issue now enjoy world fame, were established in this former polder in the nineteen-sixties. These ‘founding fathers’ still form the core of the Amsterdam Science Park: a campus which has developed around this nucleus of fundamental scientific research over the past twenty years and has almost 10,000 scientists, science students, entrepreneurs and employees. Not only is this environment where they deliver top performances; it is also a place of meeting and cooperation. Everything needed to facilitate this is in place at the Amsterdam Science Park and the foundation has been laid for a leading knowledge area in the fields of scientific research, valorisation and innovative entrepreneurship.
I am proud of how the Amsterdam Science Park has developed. Amsterdam has a thriving creative industry, a strong financial business centre at the Zuidas, a unique historical centre, a clustering of the biggest media companies, two universities and leading art institutions. And the Amsterdam Science Park fits well in that row of pearls. It is also one of the biggest clusters of fundamental scientific research and education in Europe. The area inspires me and it inspires
Amsterdam. Thousands of people work on innovations and technologies here which contribute to the resolution of challenges in the areas of energy, health and transport, for example. These solutions are brought to the market increas-ingly faster, thanks to the infrastructure available for start-ups and spin-offs. I often entertain foreign delegations and companies, which are always particu-
larly impressed with the cooperation and level of international excellence here. An equally important aspect is that the Amsterdam Science Park and the city of Amsterdam work together to find solutions for and innovative ways of dealing with urban challenges. And that we, in turn, share that knowledge with other international cities.
I am always heartened by a visit to the Amsterdam Science Park. I see passionate students attending lectures, scientists using small matter to think big, young entrepreneurs with a burning desire to take the market by storm with product innovations, cranes and construction workers building new developments for research institutes or businesses, and the coming together of people and minds from all over the world. You experience the future at the Amsterdam Science Park and the firm belief that we really can make a difference with knowledge and bold entrepreneurship. You will read about their stories in this first issue of ‘Bright and Leading’. They have inspired me. I hope they inspire you, too.
EBERHARD VAN DER LAANMayor of Amsterdam
BRIGHT & LEADING NOT ONLY IS THIS ENVIRON-MENT WHERE THEY DELIVER TOP PERFORMANCES; IT IS ALSO A PLACE OF MEETING AND COOPERATION
THE AREA INSPIRES ME AND IT INSPIRES AMSTERDAM
PAGE 4 | CORPORATE STORY
COLLABORATION BY DESIGN
UNTIL THE 17TH CENTURY, THE AREA WHERE AMSTERDAM SCIENCE PARK IS LOCATED WAS COMPLETELY SUBMERGED
IN WATER. LYING MORE THAN FOUR METRES BELOW SEA LEVEL, IT TOOK REVOLUTIONARY TECHNOLOGICAL
ADVANCEMENT FOR THE LAND TO BE RECLAIMED IN 1629. APPROPRIATELY, TODAY AMSTERDAM SCIENCE PARK IS
HOME TO ONE OF THE LARGEST CONCENTRATIONS OF BETA SCIENCES IN EUROPE. THIS UNIQUE JUNCTURE OF
PRESTIGIOUS EDUCATION, HIGH-QUALITY RESEARCH AND KNOWLEDGE-INTENSIVE BUSINESS HAS BEEN CAREFULLY
CULTIVATED TO STIMULATE INNOVATION AND COLLABORATION. WITH THE UNIVERSITY OF AMSTERDAM’S FACULTY
OF SCIENCE, AMSTERDAM UNIVERSITY COLLEGE, DOZENS OF RENOWNED RESEARCH INSTITUTES AND SOME
120 COMPANIES – FROM START-UPS TO MULTINATIONALS – ALL WORKING IN THE FIELDS OF IT, LIFE SCIENCES,
ADVANCED TECHNOLOGY AND SUSTAINABILITY, AMSTERDAM SCIENCE PARK HAS BECOME A VIBRANT MELTING
POT WHERE BUSINESS, SCIENCE AND INNOVATION MEET.
CORPORATE STORY | PAGE 5
RESEARCH HUB Boasting the highest concentration of publicly funded research in the Netherlands, Amsterdam Science Park is currently home to eight University of Amsterdam research institutes and three institutes of the Netherlands Organisation for Scientific Research: FOM Institute AMOLF, the Centre for Mathematics and Computer Sciences (CWI) and the National Institute for Subatomic Physics (Nikhef). Recently the Dutch institute for space research expertise, SRON, decided to relocate from Utrecht to Amsterdam Science Park. The new Advanced Research Centre for Nanolithography (ARCNL), a joint venture of ASML and the Foundation for Fundamental Research on Matter (FOM), will be operational from January 2014 and conduct fundamental and applied research in areas that are key to unlocking innovation in the global semiconductor industry.
Among the hundreds of researchers working within these institutes are several winners of the Spinoza and Nobel Prize and European Research Grants. These individuals carry out pioneering and inspirational research in fields including multimedia, grid computing, visualisation, system biology, nano-photonics, cryptology, smart grids, particle physics and microscopy. And together, they provide international research support to businesses such as Michelin, Philips, AkzoNobel, Shell, Nikon, IBM and Microsoft. There are also numerous inno-vative spin-offs at the Park that bring together science and business.
DIGITAL DEVELOPMENTS As one of the most densely cabled locations in Europe, Amsterdam Science Park is presently home to more than 150 network hubs. It also houses internet exchanges such as AMS-IX, the largest data transport hub in the world, known for its superior quality and low costs, and NL-ix (Netherlands Internet Exchange), and is capable of reaching 80 percent of customers in Europe within 50 milliseconds.
The Science Park’s computing and communications credentials date back many decades, thanks to the ground-breaking research of the Centre for Mathematics and Computer Science (CWI). The CWI was the first organisation outside the United States to be active on the internet. Since then, it has developed impor-tant programming languages such as Python, which is used widely by Google and Amazon and other new media companies.
A recent addition to the Science Park’s thriving IT community is the third Am-sterdam-based data centre of US company Equinix. Peter Van Camp, Executive Chairman of Equinix, is a fifth generation Dutch-American and immensely proud not only of his Dutch roots, but also of the Dutch focus on innovation, which is reflected in Equinix’s flagship data center: AM3 Amsterdam Science Park, one of the most sustainable data centres worldwide. Explaining their choice of location, they cited the Science Park’s unparalleled combination of quality education, research and entrepreneurship.
EDUCATIONAmsterdam Science Park is home to a valuable pool of highly qualified students. The UvA Faculty of Science with 4,000 students covers a wide range of research, including astronomy, biology, chemistry, earth and environmental science, infor-matics, logics, mathematics and physics. And since September 2012, the 900 students of the prestigious Amsterdam University College (AUC) have also called the Science Park their home.
BUSINESSThe unique proximity of leading scientists and well-trained students and the availability of high quality technical facilities and state-of-the-art lab and office space, in several multi-tenant buildings, make Amsterdam Science Park an extremely attractive proposition for innovative businesses, from start-ups to multinational companies.
PAGE 6 | INTERVIEW
The Photanol trial factory in the greenhouses of Amsterdam Science Park is an impressive sight. A network of pipes reaching up to the ceiling serves as the breeding ground for a green substance, the cyanobacteria, more commonly known as blue-green algae. This may well be the fuel of the future. Green clean-tech investor ICOS Capitol was immediately convinced of the product’s potential and decided to invest last year, so that the technology could be implemented.
It’s hard to imagine that cars will be driving on bacteria soon. But it’s going to happen. The Photanol principle was discovered by two professors at the Uni-versity of Amsterdam: Klaas Hellingwerf and Joost Teixeira de Mattos. While studying the cyanobacteria, they discovered that it creates chemicals out of CO2 if it has the right genetic material. These are the same chemicals that are currently being derived from fossil fuels, such as ethanol, which is used to fuel cars, but also bulk chemicals for plastics and coatings or aroma and flavour additives for the food industry. The bacteria feed on sunlight and CO2, which results in a negative carbon footprint.”
“This technology is suitable for hundreds of products,” Veronique de Bruijn from ICOS Capitol told us. But there’s a long way to go before it becomes interesting for the market. “The theoretical idea already existed, but we had to investigate whether the Photanol principle could be scaled up as well. To calculate the cost price, this process was modelled at TU Delft. We also had to optimise the trial factory, so that the cyanobacteria could perform even better.”
The scalability of the Photanol Factory has been proven and the price has shown to be competitive in relation to the current market. “The financial potential is there, which is important for new investors. And these are needed. It could be ten years before we see the first car that runs on ethanol.”
In the meantime, Photanol has grown into a company staffed by eight people. “The idea ties in well with the need to find an alternative for oil and other energy sources. I’m keeping my eyes open in the meantime, because there’s so much going on here at Amsterdam Science Park. The Technology Transfer office is doing that for us, too. They sift the wheat from the chaff and together we discuss commercial feasibility of scientific technologies. Besides finding accommodation and providing advice, the Ace Venture Lab helps entrepreneurs set up their businesses by bringing them into contact with investors like us.”
BLUE-GREEN ALGAE: THE FUEL OF THE FUTUREVERONIQUE DE BRUIJN - ICOS CAPITAL, PHOTANOL
ENTREPRENEURSHIP THRIVES AT AMSTERDAM SCIENCE PARKTHERE ARE 120 COMPANIES AT AMSTERDAM SCIENCE PARK, FORTY OF WHICH ARE THE PRODUCT
OF A SCIENTIFIC DISCOVERY. MATRIX INNOVATION CENTER PROVIDES OFFICE SPACE AND LAB
FACILITIES TO AT LEAST 100 OF THESE YOUNG, DYNAMIC AND INNOVATIVE SCIENCE COMPANIES
IN SEVERAL MULTI-TENANT BUILDINGS. ACE VENTURE LAB AND THE TECHNOLOGY TRANSFER
OFFICE ALSO ASSIST DIFFERENT RESEARCHERS AT AMSTERDAM SCIENCE PARK IN BRINGING THEIR
KNOWLEDGE TO THE MARKET IN THE FORM OF COMPANIES AND, WHERE POSSIBLE, HELPING
THEM FIND CUSTOMERS. BELOW ARE THE STORIES OF THREE SUCH SPIN-OFFS, ONE OF WHICH
HAS ALREADY FOUND SUCCESS INTERNATIONALLY.
INTERVIEW | PAGE 7
A detector that unravels the protein molecules in the human body within half an hour – which is over 4000 times faster than current methods – is ready to take the world by storm. The technology behind this new detector has tens of other potential applications, so scientists are queuing up for the opportunity to work with this technological find. With the help of investor 1&12 Ventures, Omics2Image has been established and the detector is available commercially.
The protein detector, the IonPix camera, is a real breakthrough in the world of mass spectrometry. The detector improves the analyses of tumours and therefore to tailor treatment accordingly. This is why it is so crucial that the technology becomes available; for example, for hospitals and the pharmaceutical industry.
The technology was invented by Professor Ron Heeren, research leader of the Biomocular Imaging Mass Spectrometry Group at the AMOLF research insti-tute. The focus of Professor Heeren’s work is on tracing proteins in the body, such as tumours. He discovered that a chip, developed by CERN for particle physics research, enables the detector to achieve an even higher resolution, greater speed and higher sensitivity than are currently available. The first IonPix camera has already been sold in Korea, which constitutes a major feat in Omics2Image’s first year of operations. “The invention is there, but now we need people who understand not only the technology, but also how to sell it,” Odile Basedow told us. Basedow worked at Omics2Image last year, after being recruited by 1&12 Ventures to give the spin-off company a kick-start.
Together with Ron Heeren and physicist Chris Rétif, she took part in the NGI Venture Challenge and won the first prize of 25,000 euros. The Venture Challenge is an initiative of the National Genomics Initiative and challenges life-science researchers to turn inventions into a business plan. Basedow: “The prize money will be used to expand the business. However innovative a technology may be, it won’t sell itself.”
“Innovation comes from the universities and research institutes,” Basedow added. “They discover the unknown, which makes them innovative. But that’s where their responsibility ends. If a new technology has potential appli-cations outside academia, needed by the market, other people are required to develop that potential. This means essential knowledge is lost. 1&12 Ventures brings together the knowledge of academia and business expertise. I’ve returned to my course at the Faculty of Science (FNWI), so I’m no longer involved in Omics2Image. But I keep a close eye on the developments. It’s going to be an exciting year.”
In 1994 toxicologist Bram Brouwer developed a method that detects harmful substances in food. And he hit the bullseye, because the need for research into food was growing and there were few effective food safety measurements systems. Bram set up his company Bio Detection Systems (BDS) in 2000, which screens food from across the world – in laboratories at Amsterdam Science Park.
Increasingly, we hear alarming stories about the discovery of poten-tially harmful substances our food, by which time the damage is done.
Therefore BDS screens food before suspicions of toxicity arise. Bram devel-oped a technique for this using cells that are similar to the body’s. Bram: “We developed them to behave like fireflies, which means that if dioxin, for instance, is detected they produce light.”
“We receive many different products and screen not only for toxic substances, but also for potentially harmful hormones. These can be found in meat, but also in plastics, which can enter our food through packaging. The search for harmful substances is endless, which is why it’s so important for us to be in a university environment here at Amsterdam Science Park. Collaboration with other scientists can lead to new detection methods.”
Despite the fact that the BDS method is used the world over, inspection services are reluctant. “Legislation determines which method is used to test food safety. The methods used at the moment test on the basis of certain categories and standards. Each substance is measured individually. The BDS method measures the effect of all the substances simultaneously and, moreo-ver, it’s bio-based. Validation studies need to demonstrate that our method is reliable and produces the same results as the method used. But that requires a lot of time.”
QUEUING UP FOR THE SUPER-FAST DETECTORODILE BASEDOW - 1&12 VENTURES, OMICS2IMAGE BRAM BROUWER - BIO DETECTION SYSTEMS (BDS)
BDS: SAFEGUARDING FOOD SAFETY
Technology Transfer OfficeThe University of Amsterdam Technology Transfer Office provides expert supervision and advice on the successful transfer of knowledge for academics, the business community and society at large. www.tto.uva.nl/en
ACE Venture Lab Amsterdam Ace Venture Lab Amsterdam actively supports researchers, PhD candidates, students, science-based start-ups and spin-offs to build successful high-growth businesses. They offer tailored programmes and facilities to support science- based start-ups at every stage. www.ace-amsterdam.org/nl/venturelab-amsterdam
PAGE 8 | INTERVIEW
“THE NETHERLANDS IS A VERY ATTRACTIVE COUNTRY ON THE GLOBAL MAP. WE WOULD DO WELL TO SPOTLIGHT THAT FACT MORE.”
SINCE JULY 2012, PROFESSOR ROBBERT DIJKGRAAF HAS
BEEN DIRECTOR AND LEON LEVY PROFESSOR OF THE
INSTITUTE FOR ADVANCED STUDY (IAS) IN PRINCETON,
USA. HE IS ALSO AFFILIATED WITH THE UNIVERSITY OF
AMSTERDAM IN THE CAPACITY OF DISTINGUISHED UNIVER-
SITY PROFESSOR. HE DOESN’T VISIT THE NETHERLANDS
OFTEN, BUT WE MANAGED TO SPEAK TO HIM FACE TO FACE
VIA A LARGE-SCREEN VIDEO CALL. CAN THE NETHERLANDS
MATCH THE HIGH-QUALITY SCIENCE CLIMATE IN AMERICA?
“THERE ARE VERY FEW PLACES IN THE WORLD THAT BRING
TOGETHER TECHNICAL KNOW-HOW, CREATIVITY AND
EXCELLENT GLOBAL ACCESS. AMSTERDAM SCIENCE PARK
IS ONE OF THEM.”
INTERVIEW WITH ROBBERT DIJKGRAAF BY JOLIEN ALBERDINGK THIJM
BREEDING GROUND FOR NEW INDUSTRY
INTERVIEW | PAGE 9
WHAT DO YOU TELL YOUR COLLEAGUES IN AMERICA ABOUT SCIENCE IN THE NETHERLANDS?“I don’t need to tell them anything; the Netherlands is a relatively big ‘science country’ and Dutch insti-tutions are well known. All of my colleagues here in the States work with colleagues in the Netherlands, or have visited them. The Netherlands is the world’s ninth most prominent country in terms of science, which I find impressive, because we don’t have a very large economy and only account for a small part of the world population. A lot of the talent in Europe is concentrated in the Netherlands and almost every Dutch university is ranked among the world’s top 200. Productivity is high and the quan-tity and impact of scientific articles published are significant. Globally, this means that many scientific articles refer to Dutch research. The Netherlands was recently rated number one in the world in terms of ‘impact per physicist’. I think that’s extraordinary.”
WE HAVE A HIGH OPINION OF AMERICAN UNIVERSITIES IN THE NETHERLANDS“People in the Netherlands often think that we’re not up to speed, but I’d like to correct that image. The top universities in the United States are private institutions and therefore have very little government intervention. Private institutions such as IAS in Princeton depend on the government for only 10% of their funding, whereas in the Netherlands the government is responsible for 90% of university funding. To create a basis for research, they need support from different parties, which requires creativity and diversity. The major American uni-versities receive private funding from parties that see potential in their research. While these include many small amounts, they represent a total value of 17 billion dollars. That’s enormous.”
“We have a different type of society in the Nether-lands, which requires its own, more extrovert system. We collaborate with many scientists from other countries. In addition to the university and business community, there is a third key player: the govern-ment. It’s this triangle that is often regarded with jealousy by American colleagues. Sometimes it’s nice to have things arranged from above. The American system doesn’t involve government intervention, so the institutions have no mainstay as such. The United States is a bottom-up country, where you have to create everything yourself. You always have to be enterprising and ensure that things get done.”
WHAT IS THE POTENTIAL OF AMSTERDAM SCIENCE PARK?“There are very few places in the world that bring together technical know-how, creativity and good access to the rest of the world. Amsterdam Science Park is one of them, but it needs to do more to attract highly qualified people with a technical background. Amsterdam has the potential to be the breeding ground for businesses and new industry in Europe. But we still have a way to go, as we don’t have such a long tradition yet.”
HOW CAN AMSTERDAM SCIENCE PARK BECOME THE BREEDING GROUND FOR NEW INDUSTRY?“Amsterdam is the only city in the Netherlands with two universities that work closely together. The headquarters of the Royal Netherlands Academy of Arts and Sciences (KNAW), as well as that of major international companies, are located in the capital. Amsterdam Science Park is also home to the national laboratories of the Foundation for Fundamental Research on Matter (FOM) and the Netherlands Organisation for Scientific Research (NWO). Amster-dam attracts a lot of international business and the city is well respected, as we collaborate in many international scientific studies. But, even though there’s no technical university, the institutions in Amsterdam need to put much more emphasis on the technical component. You can see how this will present golden opportunities for businesses in the future. And what the United States excels is attracting talent from across the globe; not only from Europe, but also from the emerging Asian economies. At Princeton, I often bump into high school students from China, who come here to sample university life in the USA. You don’t see that in Amsterdam yet.” AND WHAT DO YOU HOPE TO SEE IN AMSTERDAM IN 25 YEARS?“I hope that the Amsterdam region will be synony-mous with science, research and creativity. Amster-dam Science Park has a wide profile, which could be further enhanced by establishing a number of distinctive businesses, which would give even more substance to the campus. The Netherlands is a very attractive country on the global map and we would do well to spotlight that fact more.”
Who is Robbert Dijkgraaf? Robbert Dijkgraaf was President of the Royal Netherlands Academy of Arts and Sciences (KNAW). Until 1992 he was affili-ated with Princeton University and in 2005 he was appointed Distinguished University Professor in Mathematical Physics at the University of Amsterdam. He studied phys-ics and mathematics at Utrecht University and graduated cum laude in 1989 under Nobel Prize winner Gerard ‘t Hooft. In 2003 he received the Spinoza Prize and in 2013 an honorary doctorate from Radboud University Nijmegen. He makes scientific research accessible to non-academics via TV programmes such as his live TV lectures and the Proefjes.nl website.
“THERE ARE VERY FEW PLACES IN THE WORLD THAT BRING TOGETHER TECHNICAL KNOW-HOW, CREATIVITY AND EXCELLENT GLOBAL ACCESS. AMSTERDAM SCIENCE PARK IS ONE OF THEM.”
SURFSARARobbert Dijkgraaf was interviewed via livestream at the Collaboratorium. SURFsara is the home to the superfast and super sustainable new national supercomputer, Cartesius. SURFsara provides an integrated ICT research infrastructure for science and the knowledge economy, with the Collabo-ratorium being a new visualization and presen-tation space for science and industry, used by researchers who are investigating how to deal with the exponential growth and complexity of data (Big Data) from observations, experiments and simulations.The Collaboratorium is a joint initiative of SURFsara and the Netherlands eScience Center.With a processing speed that enables it to carry out over a quadrillion calculations per second, Cartesius helps researchers with clean energy, climate research, water management, product and process optimisation, minimising noise pollution and improving medical treatment; not to mention contributing to data analysis from the LHC.
PAGE 10 | REPORT
A LOT OF THOUGHT WENT INTO THE DEVELOPMENT OF AMSTERDAM SCIENCE PARK. ITS DESIGN IS A NETWORK
OF MEETING PLACES WITH VARIOUS RESTAURANT AND SPORTS FACILITIES FOR THE 10,000 STUDENTS, RESEARCHERS,
EMPLOYEES AND BUSINESS PEOPLE WHO MAKE USE OF THE PARK EVERY DAY. THE BUILDINGS, LANDSCAPE AND
PUBLIC SPACE ARE INTERCONNECTED AND STRONGLY INTERTWINED. THE OFTEN STRIKING ARCHITECTURE PLAYS
A PROMINENT ROLE. THE ARTWORKS DOTTED AROUND THE PARK MAKE FOR INSPIRING AND INVITING MEETING
PLACES THAT CONNECT SCIENCE TO ART.
NETWORK OF MEETING PLACES
Milos - Winner Zuider-
kerkprijs 2008 for the best housing project in the city
and nominated for the Gouden A.A.P.
2009
Amsterdam University College - Winner Gouden A.A.P. 2013
Faculty of Science University of Amsterdam - Nominated for the
Gouden A.A.P. 2010
De Wortels (roots) - Barbara Recourt & Fons Broess
LOCATION
AMSTERDAM HAS A UNIQUE GEOGRAPHICAL
LOCATION AND LARGE VOLUMES OF INTER-
CONTINENTAL FREIGHT PASSES THROUGH THE
COUNTRY BY AIR, WATERWAY, TRAIN AND ROAD.
REGARDLESS OF YOUR PREFERRED MODE OF
TRANSPORT, THE REST OF THE WORLD IS NEVER
FAR AWAY, THANKS TO THE REGION’S EXCELLENT
PHYSICAL AND DIGITAL INFRASTRUCTURE.
EASY ACCESS TO AMSTERDAM SCIENCE PARKConveniently located next to the A10 ring road, just 6km east of the historic city centre, Amsterdam Science Park is extremely accessible – by bicycle, public transport and car. Bus 40 and peak-time bus 240 have bus stops on the site and several trains stop at Amsterdam Science Park Station every hour. It is an eight-minute train ride to the city centre and less than 30 minutes to the international Amsterdam Schiphol Airport.
EUROPEAN GATEWAY FOR FREIGHT, CLIENTS AND CUSTOMERSAmsterdam Airport Schiphol provides 270 flight connections to airports in 92 countries, served by 104 different airlines from all over the world. This makes Amsterdam Airport Schiphol one of the four main European airports. Together with the close proximity of the Port of Amsterdam and the Port of Rotterdam, supported by an extensive transport network of rail and road, the Amsterdam Area offers easy access to all the main European markets, for both passengers and cargo.
DIGITAL SUPER HUBThe Amsterdam Metropolitan Area has one of the world’s highest broadband concentrations. As one of the most densely cabled locations in Europe, Amster-dam Science Park is presently home to more than 150 network hubs. It also houses internet exchanges such as AMS-IX, the largest data transport hub in the world, known for its superior quality and low costs, and NL-ix (Netherlands Internet Exchange), and is capable of reaching 80 percent of customers in Europe within 50 milliseconds.
AMSTERDAM SCIENCE PARK IN SHORTAMSTERDAM SCIENCE PARK HAS THE LARGEST CONCENTRATION
OF UNIVERSITY SCIENCE EDUCATION AND RESEARCH IN THE
NETHERLANDS AND ONE OF THE LARGEST IN EUROPE. MORE
THAN 400 MILLION EUROS ARE INVESTED IN RESEARCH DEDI-
CATED TO PHYSICS, ADVANCED TECHNOLOGY, LIFE SCIENCES,
ICT AND SUSTAINABILITY EACH YEAR.
AMSTERDAM SCIENCE PARK IN NUMBERS10,000 students, researchers, entrepreneurs and visitors make use of the facilities at Amsterdam Science Park every day
10 Spinoza Laureates (Dutch Nobel Prize)
4 Nobel Prize winners: Martinus Veltman, physics 1999Johannes van der Waals, physics 1910Pieter Zeeman, physics 1902Jacobus van ’t Hoff, chemistry 1901
Amsterdam Science Park hosts two universities, six world class knowledge institutes (a seventh is on the way) and eight university research institutes
120 companies, from start-ups to multinationals and organisations in the ICT, Life Sciences sector, Advanced Instrumentation, sustainability sector
Matrix Innovation Center: five multi-tenant build-ings with 18,112 m2 floor space including 4,200 m2 lab space
Number 1: AMS-IX at Amsterdam Science Park is the largest data transport hub in the world, known for its superior quality and low costs
155,000 m2 of the 500,000 m2 total is still available for development
1,325 student apartments and units
552 owner-occupied and rented flats
WORLD CLASS KNOWLEDGE INSTITUTIONS•FOMInstituteAMOLF•CWI:DutchNationalResearch
Centre for Mathematics and Computer Science
•Nikhef:NationalInstitutefor Subatomic Physics
•SURFsara:Computingand Networking Services
•NLeSC:NetherlandseScienceCenter
•ARCNL:AdvancedResearch Centre for Nanolithography
•UvAFNWI:Universityof Amsterdam,FacultyofScience
•AUC:AmsterdamUniversity College
•SRON:SpaceResearchOrganiza-tion Netherlands (from 2014)
RESEARCH INSTITUTES AT THE FACULTY OF SCIENCE HIMS Van ‘t Hoff Institute for
Molecular Sciences IAP Astronomical Institute Anton
Pannekoek
IBED Institute for Biodiversity and Ecosystem Dynamics
IoP Institute of Physics ILLC Institute for Logic, Language
and Computation IvI Informatics Institute
KdVI Korteweg de Vries Institute for Mathematics
SILS Swammerdam Institute for Life Sciences
Amsterdam Science Park is a major hub for research, innovation and entrepreneurship because of its world-class research institutes, universities and excellent business climate. Amsterdam Science Park is a joint development of the University of Amsterdam, the City of Amsterdam and the Netherlands Organisation for Scientific Research (NWO).
RESEARCH..................................................................................
1 Technology Transfer OfficeTheUniversityofAmsterdamTechnologyTransferOfficeprovidesexpertsupervisionandadviceonthe successful transfer of knowledge for academ-ics, the business community and society at large. www.tto.uva.nl/en
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BIOLOGY AND MEDICAL BIOLOGY
1 Institute for Biodiversity and Ecosystem Dynamics (IBED)IBED unravels how ecosystems function in all their complexity, and how they change due to natural processes and human activities. www.ibed.uva.nl
1 Swammerdam Institute for Life Sciences (SILS) SILS is a multidisciplinary research institute and alsothelargestoftheFacultyofScience.The institute combines a wide range of biological disciplines together with modern technologies for the life sciences. www.sils.uva.nl
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INFORMATICS AND LOGIC
1 Institute for Logic, Language and Computation (ILLC) ILLC is a world-class research institute in the interdisciplinary areas of mathematics, linguistics, computer science, philosophy and artificial intelligence. www.illc.uva.nl
1 Informatics Institute (IVI) IVI performs research that involves complex information systems at large, with a focus on collaborative, data-driven, computational and intelligent systems, all with a strong interactive component. www.ivi.uva.nl
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PHYSICS
1 Institute of Physics (loP) IoP carries out excellent research in the field of experimental and theoretical physics for teaching programs and other curricula. IoP also focuses on transferring knowledge into society and colla-boration with industrial partners. www.iop.uva.nl
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CHEMISTRY
1 Van ’t Hoff Institute for Molecular Sciences (HIMS) HIMS research targets the design, synthesis and analysis as well as the theoretical and fun-damental understanding of promising molecular systems.Researchersfromdifferentchemistrydisciplines have combined forces within HIMS. www.hims.uva.nl
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ASTRONOMY
1 Astronomical Institute Anton Pannekoek (AIP) AIP is a world leading institute in high-energy as-trophysics with top-rated internationally-oriented research groups. Black holes and neutron stars, ground-based observational techniques and the study of stars and stellar evolution, as well as planet formation, are just some of the research topics. www.astro.uva.nl
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MATHEMATICS AND STATISTICS
1 Korteweg-de Vries Institute for Mathematics (KdVI) KdVI conducts both theoretical and applied research in Mathematics. It aims to stimulate the application and appreciation of mathematics in other academic disciplines as well as in society as a whole. www.science.uva.nl/math
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1 NIKON Instruments Europe – Center of Excellence Nikon Instruments Europe has partnered with theUniversityofAmsterdaminanewCentreofExcellenceforSuperResolutionMicroscopyDevelopment. The state-of-the-art facility enables research across a broad range of disciplines. www.nikoninstruments.com
2 SURFsara SURFsaraprovidesanintegratedICTresearchinfrastructure for science and the knowledge economy in the areas of computing, data storage, visualization, networking, cloud and e-Science. SURFsaraishometothesuperfastandsustain-able national supercomputer Cartesius. www.surfsara.nl
2 Netherlands eScience Center (NLeSC) NLeSC supports and reinforces multidisciplinary and data-intensive research focused on collabora-tion and scientific practice by making large-scale data analysis possible across multiple disciplines. www.esciencecenter.nl
3 CWI CWI is the national research institute for math-ematics and computer science in the Netherlands and also the birthplace of the European internet. www.cwi.nl
4 Nikhef The National Institute for Subatomic Physics in the Netherlands (Nikhef) coordinates and sup-ports most activities in experimental particle and astroparticle physics in the Netherlands. Nikhef participates in experiments at the Large Hadron CollideratCERN,Genevaandcontributedtothediscovery of the Higgs particle. www.nikhef.nl
5 FOM institute AMOLF AMOLFinitiatesandperformsleadingfunda-mental research on novel strategically important complex molecular and material systems, in part- nership with Dutch academia and industry, focus-ing on manophotonics and the physics of biomo-lecular systems and photovoltaics. www.amolf.nl
5 ARCNL ThenewAdvancedResearchCentreforNano-lithography(ARCNL),ajointventureofASML andtheFoundationforFundamentalResearchonMatter(FOM),willbeoperationalfromJanuary2014 and conduct fundamental and applied research in areas that are key to unlocking inno-vation in the global semiconductor industry. www.fom.nl
BUSINESS ..................................................................................
1 Equinix AM3 The AM3 is Equinix’s third Amsterdam-based data centre where approximately 600 ISPs, tele-communications carriers, content providers and hosting services from all over the world intercon-nect. State-of-the-art sustainable technologies help customers realize significant energy savings andreducetheirCO2footprint.www.equinix.nl
7 AMS-IX The Amsterdam Internet Exchange at Amsterdam Science Park is the world’s largest data transport hub and is known for its superior quality and low costs. www.amsix.nl
7 ACE Venture Lab Amsterdam Ace Venture Lab Amsterdam actively supports researchers, PhD candidates, students, science-based start-ups and spin-offs to build successful high-growth businesses. They offer tailored pro-grammes and facilities to support science-based start-ups at every stage. www.ace-amsterdam.org/nl/venturelab-amsterdam
7 Omics2Image Thestart-upcompanyOmics2Imagehasrecentlybeen established to bring technological innova-tionsfromtheAMOLFgrouptothemarket.Theirproducts are suitable for basic research and bio-medical applications such as the IonPix cam-era they developed, which has the capability of capturing several ion masses in one measurement cycle. www.omics2image.com
7 Netherlands Internet Exchange (NLix) NLix is the second internet exchange based in the Netherlands and the world’s fifth. The NLix specializes in internet exchange Services, ‘mission critical Internet’ solutions and services in and between carrier-neutral datacenters. www.nl-ix.net
7 Amsterdam Scientific Instruments (ASI) At the forefront of scientific and technological developments, ASI, a spin-off company of Nikhef, brings technology and expertise to the market to create customer value by developing, building and delivering equipment for the photon science community. www.amscins.com
7 1&12 Ventures 1&12 is a dedicated and active angel investor for promising and innovating companies and has a proven track record in early-stage ventures in a broad range of services and technologies. www.1and12.biz
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8 European Grid Infrastructure (EGI) EGIisafederationofresourceproviderssetup to deliver sustainable, integrated and secure com-puting services to European researchers and their internationalpartners:theNationalGridInitiatives(NGIs)andEuropeanIntergovernmentalResearchOrganisations(EIROs).www.egi.eu
8 Telecity Group TelecityGroupisEurope’sleadingproviderofpremium carrier-neutral data centers, operating facilities in city locations across Europe. www.telecitygroup.nl
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MATRIX INNOVATION CENTER
2 t/m 6 Matrix Innovation Center offers 18,112 m2 of high value flexible office space and laboratories in five multi-tenant buildings for approximately 100 of the 120 companies at Amsterdam Science Park. The newest addition, MATRIXVI,alsohousestheMeet&Eatrestaurantfor breakfast and lunch. www.matrixic.nl
2 Transtrack Transtrack provides a single modular software product that is configurable for every player in the cash management supply chain and cash handling industry. Transtrack software is used each and every day to serve more than 160,000 locations across more than 15 countries world-wide. www.transtrack.nl
3 Visual Sonics VisualSonics’ imaging technologies allow researchers at pharmaceutical and biotechnology companies, hospitals and universities to conduct research into cardiovascular abnormalities, can-cer, neurobiology and developmental biology. The European headquarters of Visual Sonics is at Amsterdam Science Park. www.visualsonics.com
4 MoneYou MoneYou is a mortgage provider and savings, lending and insurance broker that strives to offer uncomplicated products in a comprehensible manner. To that end MoneYou makes use of exact sciences. www.moneyou.nl
4 Score Integrated Score Integrated supplies services based on sales and customer care and aimed at increasing turnover, improving customer satisfaction and increasing customer loyalty. www.scoreintegrated.nl
4 IPTP Networks IPTP Networks provides a unique set of services that range from IT consultancy to complex one-stop infrastructure solutions. www.iptp.net
5 Agendia Agendia is a commercial-stage molecular diagnostic company focused on the discovery, development and commercialisation of innovative products to improve the quality of life of cancer patients, by providing healthcare professionals with critical information that enables safe and effective personalised treatment. www.agendia.com
5 Grontmij Ecology Grontmijisanexpertinandprovidesadvice on the ecological and ecotoxicological testing of water quality, sampling, field work and analyses.
5 BioDetection Systems (BDS) BDS provides ultra-sensitive and cost-effective bioassays for a wide range of persistent organic pollutants(POPs).BDS’bioassayscananalyse at very low levels of contaminants; for example in food, feed and environmental samples. www.bds.nl
6 Vancis Vancis,aspin-offcompanyofSURFsara, offers high quality ICT services to businesses, universities, and education and health service companies. www.vancis.nl
6 SMS Oncology SMSOncologyiscommittedtosupporting innovative biotech, pharmaceutical and diagnos-tics companies and investigators by sharing its oncology drug development know-how, capabili-ties and network, with the aim of fully uncovering the potential of new oncology products for daily practice. www.sms-oncology.com 6 Van Loon Chemical Innovations VLCIprovidesR&Dservicestosupportthe formulation industry such as paint, coatings and beauty care products. www.vlci.biz
6 Innovation Lab Chemistry Amsterdam (ILCA) ILCA offers a comprehensive package of innova-tion services for chemical start-ups and, among other things, provides housing at Matrix VI at AmsterdamSciencePark.Furthermore,theInno-vation Lab offers access to advanced instrumen-tationfacilitiesoftheAmsterdamUniversities. The Innovation Lab clusters young chemical com-panies and creates easy access to the regional and national network of knowledge institutes, value centers and other companies.
EDUCATION..................................................................................
1 University of Amsterdam – Faculty of Science With more than 30,000 students and 285 Bachelor’sandMaster’sprograms,theUniversityof Amsterdam is one of the largest comprehensive universitiesinEurope.TheFacultyofScienceatAmsterdam Science Park with 4,000 students covers a wide range of research, including astronomy, biology, chemistry, earth and environmental science, informatics, logics, mathematics and physics. www.uva.nl
2 Amsterdam University College ExcellenceandDiversityinaGlobalCityisthemottooftheAUCwhichoffersaninternationalliberal arts and sciences Bachelor’s programme to 900 students from all over the world. Substan-tial emphasis is placed on the sciences, including interdisciplinary themes such as Health and Well-being, Energy, Climate and Sustainability, and Life,Evolution,andtheUniverse.www.auc.nl
FACILITIES..................................................................................
1 University Sports Centre (USC) USChassome90differentsportsandleisureactivities on offer for students and employees at Amsterdam Science Park, but also for people living in the neighbourhood. The indoor café/ restaurantDeOerknal(BigBang)hasalarge terrace overlooking Amsterdam Science Park. www.usc.uva.nl
2 Café Restaurant Polder The restaurant is open for breakfast, lunch and dinner, and has space for presentations, meetings and private parties. www.cafe-restaurantpolder.nl
3 Amsterdam Science Park Amsterdam Train Station Amsterdam Central Station: 8 minutesAmsterdam Schiphol Airport: 30 minuteswww.ns.nl
4 Amsterdam Science Park Conference Centre Conference facilities for 40-275 persons, are available at the Science Park Conference Centre. www.wcw.nl
5 Student housing Amsterdam Science Park has a total of 1,325 student apartments and units. The apartments with shared or own kitchen and two-room units arerentedoutbyDUWO.www.duwo.nl
5 Supermarket
6 Hotel & conference facilities Negotiations about developing a hotel at Amsterdam Science Park with 200 rooms and 2,000 m² of conference space are ongoing.
7 Available for development A total of 155,000 m² over several lots is still available for real estate development for companies and knowledge institutions.
FACTS
A10 ring road (outside the picture) with connections to Schiphol, The Hague, RotterdamandUtrecht,amongothers
IJburg (outside the picture) is the city’s new residential district, built on reclaimed land with 18,000 houses and 45,000 citizens.
Residential housing (outside the picture) A total of 400 owner-occupied and rented flats are divided over three different buildings (Andros, Milos and Samos). Some have indoor parking or come with additional business space. In 2014 another 22-storey building with 152 mid-range-priced rented flats will be built.
Historic city centre (outside the picture) 8 minutes by train and 15 minutes by bike.
SETTING UP A BUSINESS AT AMSTERDAM SCIENCE PARKOVER 2,000 INTERNATIONAL COMPANIES HAVE ALREADY INVESTED IN THE AMSTERDAM
METROPOLITAN AREA AND CHOSEN TO BECOME PART OF ITS LONG HISTORY AS A SUCCESS-
FUL BUSINESS HUB AND LEADING CENTRE OF TRADE AND INNOVATION. WITH WORLD-CLASS
RESEARCH INSTITUTES, TWO UNIVERSITIES AND SOME 120 COMPANIES, AMSTERDAM SCIENCE
PARK IS A CENTRE OF RESEARCH, INNOVATION AND ENTREPRENEURSHIP. THE PARK IS ALSO
HOME TO THE WORLD’S LARGEST DATA TRANSPORT HUB, THE AMS-IX, AND OFFERS EXCELLENT
OPPORTUNITIES FOR ICT, LIFE SCIENCES, ADVANCED INSTRUMENTATION AND SUSTAINABLE
BUSINESS. AMSTERDAM SCIENCE PARK WILL HELP YOUR RESEARCH AND BUSINESS EXCEL.
EXPATCENTER Amsterdam’s Expatcenter is a one-stop shop for international companies and their highly skilled migrant employees. Here, employers can initiate the residence permit registration process before their new employees arrive in the country, which enables highly skilled migrants (and their family members) to complete several important formalities in a single visit.
FAVOURABLE TAX CLIMATEInternational companies located in the Netherlands enjoy various tax advantages. A stable political environment provides certainty for future transactions, invest-ments and corporate structures, and allows expatriates a 30% personal tax advantage. The Dutch government also offers tax incentives for innovation.
Contact us to find out more about setting up a business at Amsterdam Science Park [email protected] www.amsterdamsciencepark.nl
Amsterdam is enjoyed by residents and businesses alike and its workforce is made up of nationals from 180 different countries. Many of these are highly educated (44%) and the majority (80%) speak English, making Amsterdam the largest Anglophone city in Europe. Amsterdam also has the country’s highest density of knowledge workers and an increasing influx of workers from other EU countries.
LARGE POOL OF INTERNATIONAL, INNOVATIVE SERVICE PROVIDERSThe Amsterdam Area is home to global enterprises from many professional service fields, such as legal affairs, media, ICT, pensions and tax consultancy. This ensures that businesses are served efficiently.
EXCELLENT ACCESS TO WELL-DEVELOPED MARKETSWith its central location and excellent infrastructures, the Amsterdam Area is a gateway to Europe and beyond. According to the World Talent Index, the Netherlands ranks fourth in the world for attracting and developing talent, surpassing every other country in Europe. Our favourable tax environment, stable business climate and superior quality of life will help your business succeed.
REPORT | PAGE 19
University Sports Centre - Nominated for the Gouden A.A.P. 2011
Steps of Science 48 tiles of organised knowledge - Nienke Korthof
Liander - nominated for the Gouden A.A.P. 2009
FOM Institute AMOLF - Nominated for the Gouden A.A.P. 2010
Meet&eat in Matrix VI
Café Restaurant Polder
Open day
PAGE 20 | INTERVIEW
SCIENCE AND COLLABORATIONYOU NEVER WORK ALONE IN THE FIELD OF SCIENCE, WHICH IS WHY RESEARCH INSTITUTES AT
AMSTERDAM SCIENCE PARK AND BEYOND ARE JOINING FORCES AND MAKING DISCOVERIES
THAT ARE RECEIVING WORLDWIDE ATTENTION. “WITHOUT THE CERN PARTICLE ACCELERATOR
AND THE KNOWLEDGE OF NIKHEF, WE WOULD NEVER HAVE FOUND THE HIGGS PARTICLE.”
After years of preparation and billions of collisions in the particle accelerator, the Higgs particle was finally discovered in the summer of 2012. “That’s right, scientists had been looking for it for years,” said Paul de Jong, researcher at Nikhef and professor at the University of Amsterdam. “Now I want to know whether other types of particles exist that are completely unrelated to the current Higgs mechanism theory, such as dark matter.”
Nikhef is the Dutch centre for subatomic physics and one of the first research institutes at Amsterdam Science Park. Top researchers from the University of Amsterdam, VU University Amsterdam, Utrecht University, the University of Groningen and Radboud University Nijmegen collaborate at Nikhef to study particles that are smaller than an atom.
Nikhef’s research is concentrated on astroparticle physics and experiments with the Large Hadron Collider (LHC) at the CERN research institute in Geneva. Researchers cause protons to collide with each other in this particle accelerator, in the hope that new particles will be created from the debris. De Jong: “One of these experiments is the ATLAS experiment. We helped build the ATLAS detector at Nikhef, which measures what happens during proton collisions in the LHC. These collisions result in a huge amount of data - data which we analyse in the hope of discovering new particles of matter.”
“The ATLAS experiment involves 170 different university groups from 35 coun-tries around the world. The Higgs particle was discovered within this collabora-tion, after more than a hundred billion collisions. Nikhef is a sought-after partner for such experiments. Not only are we helping to build the detector, we’re also a specialist in measuring collisions. The collisions take place at CERN in Geneva, but we study the resulting data here at Nikhef, at Amsterdam Science Park. SURFsara is next door to us and they store and analyse all the data from the LHC. The AMS-IX has the best network connections across the world. They’re a key partners for us.”
“We create a billion collisions a million times in the LHC, most of which [do not result in] Higgs particles. We’re not looking specifically for those anyway; we’re looking for new, unknown particles, such as dark matter, supersymmetric quarks and extra space-time dimensions. Our search is never-ending.”
Dealing with big data is one of the greatest challenges faced by today’s computer scientists. Lynda Hardman, researcher at the Centre for Mathematics and Com-puter Science, is studying the interface of big data, in other words how to make the information usable. “My field of research is the interaction between people and information; understanding which information the user wants and support-ing this with technology.”
Lynda is carrying out various studies aimed at connecting people and technology. “In the Pacific Ocean near Thailand, we’re trying to teach computers to count fish using video images. This will enable marine ecologists to follow fish populations. We’re not quite there yet, but the computer is already able to recognise a fish.’
Closer to home, she’s trying to teach computers to understand art. This study has been commissioned by the Rijksmuseum in Amsterdam. “The Rijksmuseum has a catalogue containing more than a hundred thousand paintings and works of art. The problem is that the catalogue has around eight databases and each of these has different categories and uses different terminology. Try finding the information you need, then!” Lynda’s research focuses on the development of technology that can bridge all those underlying factors and make them understandable for people. “The aim is to make all information from the different databases accessible for the Rijksmuseum’s catalogue, so that the catalogue recognises the different terms and databases. We call these ‘semantic links’ between terms. We’ve built a google-type interface for the users, which in this case are the art experts. They can add descriptions of works and choose from the terminology that the computer recognises.”
The catalogue also makes it possible to compare styles, such as styles that artists use for self-portraits. “Self-portrait is one of the terms that the system should un-derstand. To build an interface that understands which information users want, you need to study the terminology they use. Personal interviews with users also help us gain a better understanding of this. Yes, that takes a while; often hours. If it takes us such a long time to understand each other, imagine how long it would take to turn this data into technology.”
SEARCHING IN THE DARK
THE ART EXPERT COMPUTER
PAUL DE JONG - NIKHEF LYNDA HARDMAN - CENTRE FOR MATHEMATICS AND COMPUTER SCIENCE (CWI)
INTERVIEW | PAGE 21
Professor Mark Golden is in full experiment mode with his group from the Institute of Physics, in search of new superconducting material. These materials, in combination with topological insulators, should bring the quantum computer one step closer. “Figuring out high temperature superconductors is one of the biggest riddles in physics.”
This kind of research is sensational for scientists. Superconductors are able to conduct current without resistance and to date, some have withstood all efforts to have their secrets uncovered by theoretical explanations. Topological insula-tors behave as insulators in their interior but their surface contains conducting states. This is called ‘quantum electron matter’ and is Golden’s field of research. He wants to discover, manipulate and understand materials with new electronic and magnetic properties.
“With the advent of a quantum computer, important calculations, for example to simulate new material, calculate climate models or predict what effect new medi-cation will have, will be thousands of times faster,” says Golden. “But we’re no-where near that point yet – for that we first need to learn how to control topological insulators.”
“In material physics, unexpected things crop up. By experimenting, different phenomena and certain particle types can appear of which we have no knowledge or for which we have no theoretical predictions. High temperature conductors are a good example of such enormous riddles. The behaviour of topological conductors does fit with current computer models. In this field, the theory is miles ahead, but the practice is more stubborn.”
The experiments at Golden’s lab take place in the freezing cold, to put it mildly. The maximum temperature at which superconducting takes place is 150 Kelvin, which is about -123 degrees Celsius. “A room temperature superconductor is one of our biggest dreams. That would make it possible to transport solar energy, for example, from South America to Europe.”
Golden and his research team work closely with researchers from other Euro-pean countries. “Each country contributes to this research. We’re conducting research with light sources with 30 groups in Germany and Switzerland at the same time. We use powerful x-ray bundles, which emit ultrafast electrons in the bend. In Nijmegen they’ve got a facility for strong magnetic fields, so the whole of Europe is actually a virtual lab in which the best researchers carry out experiments.”
“Amsterdam Science Park contributes hugely to this research, sometimes even more so than we’re aware of. When I was in Stanford recently, it turned out that the detector for the x-ray experiments had been made by Amsterdam Scientific Instruments, which is a spin-off of Nikhef. These guys are just across the road from us. It was a really lovely discovery. We’re also conducting the research into topological insulators with quantum computing experts from the Centre for Mathematics and Information Science here at Amsterdam Science Park.”
THE SUPERCONDUCTOR RIDDLE MARK GOLDEN - FACULTY OF SCIENCE INSTITUTE OF PHYSICS
PAGE 22 | INTERVIEW
AMSTERDAM SCIENCE PARK PRODUCES ENTERPRISING SCIENTISTS
ARAM ZEGERIUS AGE 20 IS FROM HaarlemSecond year at Amsterdam University College, Minor: Economics, Modern Political Science
LIZZY BAKKERAGE 22 IS FROM RijswijkBachelors in Biology, second year Master’s in Biological Science at the University of Amsterdam, Major: Science Communication
MARTIN VERLICHKOVAGE 19 IS FROM Sofia, Bulgaria First year Biomedical Science and Chemistry at Amsterdam University College
MARIEKE KRALAGE 19 IS FROM AlmeloSecond year Physics and third year Law at the University of Amsterdam
INTERVIEW | PAGE 23
THE RESEARCH INSTITUTES AT AMSTERDAM SCIENCE PARK STUDY THE VERY SMALLEST
PARTICLES OF MATTER. IT IS A MECCA FOR PROSPECTIVE BETA SCIENTISTS AND THE
NEW KNOWLEDGE THEY GAIN EVENTUALLY FINDS A WAY TO THE MARKET VIA SPIN-OFF
COMPANIES AT AMSTERDAM SCIENCE PARK. FOUR TOP STUDENTS TALK ABOUT THEIR
ENTHUSIASM FOR SCIENCE AND ENTREPRENEURSHIP. ARAM AND MARTIN ARE STUDYING
AT AMSTERDAM UNIVERSITY COLLEGE (AUC) AND LIZZY AND MARIEKE AT THE UNIVERSITY
OF AMSTERDAM (UVA).
Marieke: “I wanted to come to Amsterdam and specifically chose the UvA because here you can study the small particles in physics. Our lecturers are researchers from Nikhef and I find the lectures they give about their own research the most inspiring.”
Lizzy: “I didn’t get through the audition for the Conservatorium, so I had to look elsewhere. What I was told about the biology programme during the open days really appealed to me. I realised that I didn’t want to be a researcher while doing my Masters research. Now I’m majoring in science communication, because I find the link between science and society and how science is communi-cated more interesting.”
PERFORMMartin: “I went to a German high school in Bulgaria. I wanted to study in western Europe because of the higher level of education. I found AUC on the internet. You can select different social and scientific modules, which means that you don’t have to special-ise straightaway. I get a full scholarship now, but that’s not something you get by twiddling your thumbs. None of my marks can be lower than an 8, which brings a certain amount of pressure to perform.”
Aram: “I, too, feel the same pressure as an AUC student. After failing to gain a place on the medicine programme through the academic lottery system, I thought that AUC would be the best option to find out what I wanted to do. I’m very happy with my choice and I feel very involved in AUC, which is why I joined the AUC Student Council. The programme is new and still being developed and the Student
Council enables me to play an active role in that. It’s an intensive programme. Your social life and academic life are closely linked, which intensifies relationships with fellow students and the programme itself.’
Marieke: “I’ve always lived in student houses outside the Science Park campus. I like having a bit of distance from the university and being able to step out of the cocoon of studying.”
RICH SOCIAL LIFEMartin: “I actually see living and studying here as an advantage; you don’t have to travel to the university and it’s just ten minutes by bike or public transport into town. I share a 40m2 room, where sometimes 18 of us get together to eat. We even give parties for a hundred people, which inevitably the police bring to an end. I’ve never had such a busy social life and because we’re all studying at AUC, we experience the same pressure to perform and therefore support each other.”
Aram: “AUC is a lifestyle. Besides following lectures, studying takes all your time. It’s difficult to fit in anything else. Everyone does a minimum of four and maximum of six courses per semester and that’s intense.”
Marieke: “Many people are shocked by the amount of work involved in the physics programme. The days are long and we have a lot of lectures. It took me a while to get used to that and to find the right balance. There’s a huge amount of material to get through and it’s difficult. We do at least two courses every eight weeks and it’s easy to fall behind if there are elements you don’t understand.”
RESEARCHLizzy: “You do a lot of field work in biology, so you’re often out and about in groups. We, too, have one or two courses every eight weeks. I think Amsterdam Science Park is a great place to study, with good study areas and the fastest computers. It’s also an ideal location for research; there are so many different biology groups doing research. And the environment is rich in nature and open. Have you spotted those rabbits yet?”
Marieke: “And you can do all kinds of sports at the Universum. We can often be found in Café- Restaurant Polder, which is the hotspot here at the Park. You’re surrounded by the Netherlands’ key research institutes here, which is very inspiring.”
“AUC IS A LIFESTYLE. WHEN YOU’RE NOT AT LECTURES, YOU’RE STUDYING.” – ARAM
UNIVERSITY OF AMSTERDAMThe Science Park has been home to the University of Amsterdam’s Faculty of Science since 2009. The faculty occupies a prominent place in its respective fields of research and participates in a number of international partnerships with both universi-ties and the business community. The faculty has around 4,000 students and 1,500 staff and covers a wide range of research, including astronomy, biology, chemistry, earth and environmental science, informatics, logics, mathematics and physics.
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AMSTERDAM UNIVERSITY COLLEGE Excellent students want to go to top insti-tutes, which is why four years ago VU University Amsterdam and the University of Amsterdam set up Amsterdam University College (AUC). AUC is the only Liberal Arts & Science College in the Netherlands, which means that students get to design their own programme by combining scientific and social subjects. AUC employs a strict enrolment system and students who fail exams are placed on academic probation. The language of communication is English and the students have to live in the student accommodation at the Science Park for three years. AUC strives to ensure diversity, excellence and social involvement; not only in the Netherlands, but also worldwide.
“I WANTED TO COME TO THE SCIENCE PARK BECAUSE HERE YOU CAN STUDY THE SMALLEST PARTICLES IN PHYSICS.”
– MARIEKE
PAGE 24 | NEWS
ROYAL VISIT TO AMSTERDAM SCIENCE PARK
NEW MATERIAL GIVES VISIBLE LIGHT AN INFINITE WAVELENGTH
AMSTERDAM: EUROPE’S HOTTEST SPOT FOR TECH START-UPS IN 2013
AMSTERDAM ONE OF THE WORLD’S LEADING INTERNET CITY 2013
Shortly before his coronation as King of the Netherlands, His Royal Highness the Prince of Orange paid a visit to Amsterdam Science Park to learn about the latest developments. He visited the AMS-IX and the Colloboratorium of SURFsara, where he was brought up to speed on data visuali-zation. The Collaboratorium is a new visualization and presentation space for science and industry. The facility is of great use for researchers who are investigating how to deal with the exponential growth and complexity of data from observations, experiments and simulations.www.surfsara.nl – www.amsix.net
Researchers from the FOM Institute AMOLF and the University of Pennsylvania have created a material that gives visible light a nearly infinite wavelength. This new metamaterial is made by stacking silver and silicon nitride nanolayers, and could be used in novel optical components or circuits and to design more efficient LEDs. The work was published on the 13th of October in Nature Photonics. www.amolf.nl
IN THE 2013-14 QS RANKINGS, THE UNIVERSITY OF AMSTERDAM (UVA) HAS BEEN RANKED 58TH OVERALL.
For the fourth year in a row the UvA is the highest-ranked Dutch university on the list. The QS World University Rankings is a list of the world’s top 700 universities and is based on scores for research qual-ity (citations and peer review), student-to-faculty ratio, the proportion of international students and faculty, and the reputation of institutions among employers. Source: www.topuniversities.com
Wired magazine has named Amsterdam one of the most buzz-worthy start-up hubs in the world, and a hotspot in Europe for tech start-ups. The Novem-ber 2013 issue reported on several European start-up hubs and revealed that Amsterdam’s start-up scene is one of the most vibrant. Entrepreneur and Silicon Valley Veteran Dan Harple described the start-up scene in Amsterdam as “cutting edge” and “state of the art”, even going so far as to say that compared to Berlin and London, Amsterdam “rocks”. www.wired.co.uk
UBM’s Future Cities, a global com-munity for digital issues and analysis, has named Amsterdam one of the world’s 10 greatest internet cities in terms of digital connectedness and connectivity. 60% of the listed Forbes 2000 ICT companies have an office in the Amsterdam Metropolitan Area. www.ubmfuturecities.com
NEWS
QS WORLD UNIVERSITY RANKINGS: UVA BEST DUTCH UNIVERSITY
NEWS | PAGE 25
AMSTERDAM SCIENCE PARK WELCOMES MATRIX VI
ASML CHOOSES AMSTERDAM SCIENCE PARK
High tech company ASML is opening a new research centre for nanolithography at Amsterdam Science Park. The Advanced Research Center for Nanolithography (ARCNL) is a collaboration be-tween ASML, FOM Institute AMOLF, the University of Amsterdam and VU University Amsterdam. ASML is worldwide supplier of machines for the semicon-ductor industry, which are used to make chips. “This consortium conducts fundamental research that is essential for innovation in the semiconductor indus-try,” says Bart Noordam, vice-president of research at ASML. Joost Frenken, Professor of Physics at the Faculty of Mathematics and Natural Sciences at Leiden University, has been appointed director and will be setting the centre’s scientific course from 1 January 2014. “He has complete academic freedom. The exact details of what you’re going to do and the value this will hold are unknown in fundamental research. A university environment is important for us, because the various institutes and universities can strengthen our research. This collaboration improves the interaction between industry and academia. I hope other parties look at us and see how collaboration between industry and the aca-demic world can lead to breakthroughs. The idea to build this ASML research centre was born at the beginning of 2013. It’s amazing that we’ve made it happen so quickly.”
The modern, sustainable Matrix VI building is the most recent development of Matrix Innovation Center, which with 5 multi-tenant buildings, accommodates no fewer than 100 businesses at Amsterdam Science Park and offers both flexible office space and high quality, freely lettable lab space. The building was opened on 30 October 2013 by Alderman of Amsterdam Carolien Gehrels and Vice President of the University of Amsterdam’s Executive Board, Paul Doop. Matrix VI is already home to 12 companies operating in the areas of technology, life sciences and chemistry. The opening of Matrix VI also marked the arrival of the new Innovation Lab Chemistry Amsterdam (ILCA) in Matrix VI. ILCA is the Netherlands’ second (Nijmegen was the first) Innovation Lab Chem-istry and offers a wide range of innovative services for start-ups in sustainable chemistry. Start-ups in Matrix VI form part of the ILCA network from the outset, as this ensures the best conditions for growth.
“I HOPE OTHER PARTIES LOOK AT US AND SEE HOW COLLABORATION BETWEEN INDUSTRY AND THE ACADEMIC WORLD CAN LEAD TO BREAKTHROUGHS.”
PAGE 26 | INTERVIEW
TAKING OFF FROM AMSTERDAM SCIENCE PARK
INCREASINGLY MORE LIFE SCIENCE AND HIGH TECH COMPANIES ARE CHOOSING AMSTERDAM SCIENCE
PARK AS THEIR HOME BASE. THE TALLY CURRENTLY STANDS AT 120; COMPANIES WHICH WERE ATTRACTED
BY THE BUSINESS AND LAB SPACE OFFERED BY MATRIX INNOVATION CENTER. FROM HERE, THEY ASTONISH
THE WORLD WITH INNOVATION AND SCIENTIFIC BREAKTHROUGHS. THREE SUCH HIGHFLIERS TELL US
ABOUT THE SUCCESSES THEY’VE CELEBRATED AT AMSTERDAM SCIENCE PARK.
EQUINIX UP THERE ALONGSIDE SILICON VALLEY, CHICAGO AND NEW YORKYou could call Equinix the patron of data. Banks, companies, stock exchange brokers and government bodies all entrust their data to this data centre. Equinix’s data centres are located at the most important internet exchange points in the world, one of which is without a doubt Amsterdam Science Park.
“I’ve always wanted to end up at the Science Park; it’s world famous,” says Michiel Eielts, director of Equinix Nederland. “This is where the AMS-IX network origi-nated and where the first IP address was published. Amsterdam Science Park’s connectivity is world famous. Companies such as SURFsara with its supercomputer and research institute, Nikhef, came to take advantage of this, but after that things stagnated somewhat. Thanks to two universities, research institutes and companies, the Science Park has grown - so we didn’t want to miss our chance. Our third data centre is located here; the other two are in Amsterdam Zuidoost.”
Surrounded by a real moat, the unusual architecture and modern, clean lines of the Equinix building make it a real eye-catcher. “Cars aren’t able to drive up to or into the building, plus a moat has something very Dutch about it, which makes it kind of comical; but in reality it’s for security reasons.”
Equinix’s first data centre was set up in Silicon Valley in 1998. Shortly thereafter, data centres were built at other important internet exchange points such as Ashburn, New York and Chicago to connect companies to one another. The need for worldwide connections quickly grew. After Asia in 2004, it was Europe’s turn in 2007. Equinix built its first data centre in Amsterdam in 2008.
With the coming of Equinix, the international interest of big business in esta-blishing themselves at Amsterdam Science Park is increasing. “The largest social
media network in the world is here, but we can also help smaller companies that want to set up operations abroad. Our clients bring innovation and we facilitate solutions that make that possible. This could mean, for example, making data accessible in order to communicate with clients, or indeed making sure that that data is only visible to you in the private cloud. Requests are becoming increasingly complex and our aim in this is to offer an innovative solution.”
MICHIEL EIELTS
INTERVIEW | PAGE 27
VISUAL SONICSAMSTERDAM SCIENCE PARK AS THE CENTRE OF EUROPEWhen Visual Sonics wanted to set up operations in Europe, Amsterdam came highly recommended. “Amsterdam is multicultural and everyone speaks English, which makes it an attractive business location for foreign companies,” says Moktar Boukerma, European Finance Director of Visual Sonics. “Thanks to the Matrix Innovation Center, we were able to get our operations in the Netherlands off the ground quickly. Office and lab space were available immediately at Amsterdam Science Park.”
Visual Sonics develops real-time high resolution ultrasound equipment for pre-clinical research at hospitals, universities and bio-technical and pharmaceutical companies. The technology makes an important contribution to genetic and phenotypic research. In the pre-clinical phase, the ultrasound equipment is only used on mice, giving scientific insight into cardiovascular abnormalities.
“We are a service centre here in Amsterdam that caters to clients across European. Still, we can’t function without a laboratory. That’s where we can demonstrate our equipment to researchers, scientists and doctors. We are also the contact point for our European sellers and dealers.”
Visual Sonics is a subsidiary of the Japanese company Fujifilm, operating in 30 countries. The headquarters are in Canada. “Our employees come from all over Europe and they are keen to work in Amsterdam. The quality of life is high here. I live in France, so I spend a lot of time commuting, but with Amsterdam Science Park’s good accessibility, that isn’t a problem at all.”
FOKKER AEROSTRUCTURESE-LIGHTER JOINED THE MISSIONWe know Fokker as a producer of airplane components, but this is a far cry from Fokker’s activities at Amsterdam Science Park. Here, they are devel-oping the E-Lighter, an energy source developed especially for the Ministry of Defence. The E-Lighter uses diesel and is lighter and more efficient than the battery cells soldiers use now, making it extremely suitable for military missions. “In a year and a half, the E-Lighter will be ready mission-ready,” says Wim Sloetjes, project manager at Fokker Aerostructures.
The E-Lighter being developed at Amsterdam Science Park will significantly simplify the power supply issue for soldiers on missions. The electricity required to power, for example, GPS equipment now comes from batteries that accompany patrols in the form of luggage. The E-Lighter is a welcome load-lightener that makes it easier to deploy military power in the field. It’s fuelled by diesel, “which is always available in the military. Jeeps run on it – it’s what drives Defence.”
All of the components for the E-Lighter had to be especially designed to enable the conversion of diesel into electricity. “Diesel has a lot of energy, relatively speaking, but the conversion process is complex. That’s why we had to develop every component ourselves. No, I’m not going to tell you which components I’m talking about. That’s strictly confidential.”
Fokker has been established at Matrix VI, the newest building of Matrix Inno-vation Center at Amsterdam Science Park, since May. “We needed to find a new work space, but office space alone doesn’t fulfil our research needs. The E-Lighter runs on diesel. To be able to experiment with this safely, you need a really good ventilation system. We were able to rent offices with lab space at Amsterdam Science Park – everything was already there and we didn’t need to build anything ourselves. There are very few other places where that would have been possible.”
With Defence as launch partner, the first buyer is already on board. But other armies could also benefit from this invention. The E-lighter has the potential to take the world by storm can win the world over. “Of course, you never know what’s playing out behind the scenes, but I have yet to see this technology anywhere else.”
WIM SLOETJES
MOKTAR BOUKERMA
WHERE WORLD SCIENCE IS CONNECTED“I WORK SURROUNDED BY AMBITIOUS AND TALENTED PEOPLE HERE AT AMSTERDAM SCIENCE PARK. THE DIRECT AND PERSONAL CONTACT I HAVE WITH THE DISCIPLINES OF NANOTECHNOLOGY, CHEMISTRY AND BIOSCIENCE REALLY INSPIRES AND ENRICHES MY FUNDAMENTAL RESEARCH.” – DR KATERINA DOHNALOVA, ASSISTANT PROFESSOR AT THE INSTITUTE OF PHYSICS, UNIVERSITY OF AMSTERDAM
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