IBM and ETH Zurich Open Collaborative Nanotechnology Center
ZURICH, May 17, 2011 /PRNewswire/ — IBM (NYSE: IBM) and ETH Zurich, a premiere European science and engineering university, hosted more than 600 guests from industry, academia and government, to open the Binnig and Rohrer Nanotechnology Center located on the campus of IBM Research – Zurich. The facility is the centerpiece of a 10-year strategic partnership in nanoscience between IBM and ETH Zurich where scientists will research novel nanoscale structures and devices to advance energy and information technologies.
The new Center is named for Gerd Binnig and Heinrich Rohrer, the two IBM scientists and Nobel Laureates who invented the scanning tunneling microscope at the Zurich Research Lab in 1981, thus enabling researchers to see atoms on a surface for the first time. The two scientists attended today’s opening ceremony, at which the new lab was unveiled to the public.
Flickr Photos: http://www.flickr.com/photos/ibm_research_zurich/sets/72157626481794199/
“Our partnership with the IBM research laboratory in Ruschlikon and its close proximity to the ETH Zurich is truly fortunate for us,” said Prof. Ralph Eicher, president, ETH Zurich. “With this new Nanotechnology Center, we bring our unique, long-standing and prolific cooperation to a new level. I am convinced that both scientific partners, as well as the Zurich region and the Swiss industry will benefit from it.”
EMPA, a Swiss national research institution under the umbrella of the ETH domain, also is a partner in the new center.
“This new center represents a milestone in IBM’s centennial year and opens a new chapter in our long-standing tradition of scientific collaboration,” said Dr. John E. Kelly III, senior vice president and director of IBM Research. “IBM scientists will work side-by-side with our partners pursuing research to drive the future of information technology and nanoscience.”
Basic and applied projects
Scientists and engineers from IBM and ETH Zurich will pursue joint and independent projects, ranging from exploratory research to applied and near-term projects including new nanoscale devices and device concepts as well as generating insights about their scientific foundations at the atomic level. Three ETH professors and their teams have moved into the new building and will conduct part of their research in nanoscience on a permanent base. Even more ETH researchers will benefit from the partnership and be able to use the excellent infrastructure for various projects.
One focus of IBM’s research in the Center is put on exploring the “next switch”– the future building blocks for better, faster and more energy efficient chips and computer systems. For example, IBM scientists are currently exploring semiconducting nanowires–tiny hairlike structures– to potentially increase the energy efficiency of computing devices by 10 times. In addition, through novel device concepts, such nanowires-transistors could virtually consume zero energy while in passive or standby mode.
Additional research areas include micro- and nanoelectromechanical systems, spintronics, organic electronics, carbon-based devices, functional materials, cooling, three-dimensional integration of computer chips, opto-electronics and optical data communication in computers as well as silicon nanophotonics.
Researchers will also explore new approaches for fabricating structures and devices with dimensions down to a few nanometers, such as scanning-probe nanolithography or directed self-assembly, addressing the upcoming challenges for manufacturing at the nanoscale.
Nanotechnology is an enabling technology that is expected to spark advances in various fields. These include advanced functional materials, sensing, tools, healthcare, bio-analytics, water purification, energy technology, and more. In working with industry and partners, IBM scientists apply their nanoscience expertise to problems outside of nanoelectronics and help tackle some of the biggest challenges of our time, such as more efficient use of solar energy, and new ways of purifying or desalinating water.
A cutting-edge and sustainable environment
Research at the nanometer scale — one nanometer is the length of four gold atoms and 80,000 times smaller than the average width of a human hair — requires fabrication and characterization of nanoscale structures, whose level of accuracy is also at the nanometer or sub-nanometer scale. As a consequence of this scale, experiments are increasingly sensitive to or limited by external disturbances.
The Binnig and Rohrer Nanotechnology Center offers a cutting-edge, collaborative infrastructure designed specifically for advancing nanoscience. The noise-free labs open up a new level of precision, thereby potentially extending the scale on which scientists are able to measure and experiment even further.
- A large cleanroom for micro and nanofabrication provides scientists from IBM and ETH Zurich with a flexible environment and tools for lithography, wet processing, dry etching, thermal processes, thin-film deposition or metrology and characterization. The cleanroom also features a special area for processing carbon-based materials and structures.
- Six uniquely designed noise-free labs shield extremely sensitive experiments from external disturbances, such as vibrations, electro-magnetic fields, for example from nearby trains and cellphone towers, temperature fluctuations and acoustic noise.
The new Nanotechnology Center will also continue IBM’s tradition of environmental awareness and has been granted the use of the Minergie quality label, a Swiss standard for sustainable and energy-efficient buildings. More specifically, the Center improves its energy footprint with the use of photovoltaics, geothermal probes and heat recovery windows.
The building represents an investment of $60 million in infrastructure costs and an additional $30 million for tooling and equipment which, including the operating costs, are shared by the partners.
In addition to these partnerships, IBM will also collaborate in the Center with scientists from several Lithuanian universities, under a five-year agreement that was signed in September 2010 with the Lithuanian Ministry of Economy and Ministry of Education and Science. This collaboration will focus on integrated photonics and novel photonic materials to create faster computers, improved solar technologies, and nanopatterning security tags for advanced anti-forgery technology.
IBM: 100 Years of Progress
This year IBM celebrates its Centennial and to mark this achievement the company is highlighting its leading role in transforming business, science and society, while also predicting advances for the next century through a series of milestones and colloquia.
The discovery of the scanning tunneling microscope is one of IBM’s top 100 milestones which are uniquely presented in an illustrated collection called the Icons of Progress. (www.ibm100.com).
The scanning tunneling microscope icon depicts a photo of IBM Fellows and Nobel Laureates Gerd Binnig and Heinrich Rohrer with their first-generation scanning tunneling microscope design (middle) and one of the most famous uses of their invention; the spelling of “I B M” with 35 xenon atoms by IBM Fellow Don Eigler, which demonstrated the first controlled movement of individual atoms (right). Both breakthroughs depicted helped launch the field of nanotechnology. http://www.zurich.ibm.com/nanocenter/factsheet.html
Throughout 2011, IBM will host the IBM Research Colloquia, convening thought leaders at our global labs to discuss technologies of the future and their potential impact on business and society. The goal of the Colloquia is to bring together the IBM ecosystem of business, government and academia to help define the computing age of the future.
The first of these colloquia took place today at IBM Research – Zurich, and featured a dialogue on Nanotechnology and the Future of Computing with IBM Fellows and Nobel Laureates, Drs. Gerd Binnig and Heinrich Rohrer, and talks by Prof. Dr. Achim Bachem of the Julich Research Center on 21st Century Supercomputing; Prof. Dr. Karlheinz Meier, Kirchhoff Institute for Physics at Heidelberg University on Brain Inspired Computing and Prof. Dr. Daniel Loss of the University of Basel on Quantum Computing.
For more information, visit www.ibm.com/research
About ETH Zurich
ETH Zurich (Swiss Federal Institute of Technology, Zurich) has come to symbolise excellent education, groundbreaking basic research and applied results that are beneficial for society as a whole. Founded in 1855, it today offers researchers an inspiring environment and students a comprehensive education as one of the leading international universities for technology and the natural sciences. ETH Zurich has more than 16,000 students from approximately 80 countries, 3,500 of whom are doctoral candidates. More than 400 professors teach and conduct research in the areas of engineering, architecture, mathematics, natural sciences, system-oriented sciences, and management and social sciences. ETH Zurich regularly appears at the top of international rankings as one of the best universities in the world. 21 Nobel Laureates have studied, taught or conducted research at ETH Zurich, underlining the excellent reputation of the institute.
* the investment figure is based on an average conversion rate with Swiss Francs (CHF) between April 2008 – April 2011
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