Bio
Heike Riel is IBM Fellow, Head of Science of Quantum and Information Technology and Lead of IBM Research Quantum Europe at IBM Research. She is responsible for leading the research agenda of the Science of Quantum and Information Technology department aiming to create scientific and technological breakthroughs in Quantum Computing, Physics of Artificial Intelligence, Nanoscience and Nanotechnology, Precision Diagnostics and Smart System Integration.
She is a distinguished expert in nanotechnology and nanosciences and focuses her research on advancing the frontiers of information technology through the physical sciences. She contributed to advancements in the science and technology of nanoscale electronics, in particular the exploration and development of semiconducting nanowires and nanostructures for applications in future electronic and optoelectronic devices, in molecular electronics for future nanoscale switches and memory applications, and organic light-emitting diodes for display applications. Her current research interests include new materials and device concepts for future nanoelectronics for applications in quantum computing and neuromorphic computing. She also serves as the Deputy Director of the new Swiss National Competence Center for Research on Silicon Spin Qubits.
In 2013, Heike Riel was named IBM Fellow, the company's highest technical distinction, and inducted into IBM’s Academy of Technology. She was thus recognized for her seminal contributions to and fundamental achievements in the science and technology of nanoscale electronics, in particular the exploration and development of semiconducting nanowires for applications in future electronic devices, molecular electronics for future nanoscale switches and memory applications, and organic light-emitting diodes for display applications. She has authored more than 140 peer-reviewed publications and filed more than 50 patents and delivered plenary, keynote and invited talks at international prestigious conferences.
She studied physics at the University of Erlangen-Nuremberg (Germany) and received a PhD from the University of Bayreuth (Germany) in 2003 for her work on optimizing multilayer organic light-emitting devices performed at IBM Research. In 2010, Heike graduated with an MBA from Henley Business School.
After an internship at the Hewlett-Packard Research Laboratory in Palo Alto, she joined IBM Research – Zurich in 1998 as a PhD student in the field of organic light-emitting devices for display applications. Heike has made major contributions to the development of the world’s then-largest ever (20”) full-color amorphous-silicon active-matrix display based on organic light-emitting diodes, which was launched in May 2003.
In 2003, she became a Research Staff Member and, in 2008, she became manager of the Semiconducting Nanowire Research group at IBM Research – Zurich. Until 2015, she managed the Materials Integration & Nanoscale Devices (MIND) group, which pursues projects in the field of semiconducting nanowires for various applications. Several scientific highlights and technical innovations have since been demonstrated for next-generation low-power devices. One of the highlights achieved was to create sophisticated quantum devices that are hoped to become key components of quantum computers, see the blog article of March 27, 2017.
Heike Riel has received numerous awards for her scientific and technical accomplishments; a list of selected items appears below.
For her outstanding scientific contributions in the field of organic light-emitting devices for display applications, Heike was elected to TR100, an annual list of the world’s 100 Top Young Innovators by Technology Review, MIT’s Magazine of Innovation, in September of 2003.
In 2012, she won the “Technical or Scientific Innovation” award of the Swiss Association of Women in Engineering (SVIN) on the occasion of their 20th anniversary. See also the related press release and the blog article.
She has served as chairperson of the Scientific Advisory Council and Supervisory Board of Research at Forschungszentrum Jülich, Germany since 2013.
Heike was appointed a member of the SATW (Schweizerischen Akademie der Technischen Wissenschaften) in 2014. The SATW develops recommendations for action on technical topics that are particularly important for Switzerland’s quality of life as well as a workplace and research environments. Individual members of SATW are outstanding experts from the fields of education, research, commerce and industry, or politics, and are appointed for life.
She was elected a member of the Leopoldina in 2015. This is the highest academic honor awarded by a German institution. Since 2008, the Leopoldina has been the German National Academy of Sciences, and thus represents Germany in the community of international academies.
In 2015, Heike received an honorary doctorate from Lund University’s Faculty of Engineering, Sweden, in recognition of her outstanding contributions to nanoscale research.
That same year, she became a Rudolf Diesel Industry Fellow at the Institute of Advanced Studies, Technical University of Munich, Germany, and also received the Applied Physics Award of the Swiss Physical Society.
The American Physical Society bestowed Heike Riel the 2017 David Adler Lectureship Award in the Field of Materials Physics in recognition of her seminal achievements in the science and technology of nanoscale electronics as well as her outstanding presentations and outreach to general audiences. In 2020 the American Phsyical Society elected Heike Riel as APS Fellow for scientific and technical accomplishments in materials and device research for nanoscale electronics in the fields of semiconducting nanowires and organic light-emitting devices for display applications.
Selected Professional Activitities:
- Member of the Foresight Group, advising the German Government on Future trends (since 2019)
- Member of the APS Industry Board and the Policy Subcommittee (since 2015)
- Chair of the Scientific Advisory Board of the Research Center Jülich, Germany
- Member of the Supervisory Board of the Research Center Jülich, Germany
- Member of the Board of Trustees National Metrology Institute of Germany PTB
- Member of the Scientific Advisory Board of the Paul Drude Institute for Solid State Electronics, Berlin
- Member of the Scientific Advisory Board of ihp – Institut für Halbleiterphysik, Frankfurt/Oder, Germany (2015-2017)
- Member of the Scientific Advisory Board of the W.E. Heraeus Foundation, Hanau, Germany
- Member of the Award committee of the Heinrich Rohrer Medal
- Member of the JuPrix Award committee of the Research Center Jülich
- Member of several technical program committees of international conferences
- Member of review and assessment committees and advisory committees of academic departments and universities
- Reviewer of scientific and technical projects and proposals for various funding organizations
Publications
Investigation of internal processes in organic light-emitting devices using thin sensing layers
- T.A. Beierlein
- B. Ruhstaller
- et al.
- 2003
- Synthetic Metals
Simulating Electronic and Optical Processes in Multilayer Organic Light-Emitting Devices
- Beat Ruhstaller
- Tilman Beierlein
- et al.
- 2003
- IEEE Journal on Selected Topics in Quantum Electronics
Preparation of metallic films on elastomeric stamps and their application for contact processing and contact printing
- Heinz Schmid
- Heiko Wolf
- et al.
- 2003
- Advanced Functional Materials
Phosphorescent top-emitting organic light-emitting devices with improved light outcoupling
The role of copper-phthalocyanine in multilayer organic LEDs based on small molecules
- Heike Riel
- Tilman A. Beierlein
- et al.
- 2002
- Proceedings of SPIE 2002
Combinatorial device fabrication and optimization of multilayer organic LEDs
- Tilman A. Beierlein
- Hans-Peter Ott
- et al.
- 2001
- Proceedings of SPIE 2001
Transient and steady-state behavior of space charges in multilayer organic light-emitting diodes
- B. Ruhstaller
- S.A. Carter
- et al.
- 2001
- Journal of Applied Physics
Electron mobility in tris(8-hydroxy-quinoline)aluminum thin films determined via transient electroluminescence from single- and multilayer organic light-emitting diodes
- S. Barth
- P. Müller
- et al.
- 2001
- Journal of Applied Physics
Influence of trapped and interfacial charges in organic multilayer light-emitting devices
- W. Brütting
- H. Riel
- et al.
- 2001
- Journal of Applied Physics
Patents
- CA
- 3168081
- US
- 12094760
- US
- 11776809
- US
- 11183559
- US
- 11165429
- IN
- 360846
- US
- 10743104
- US
- 10652655
- US
- 10573381
- US
- 10559657