Honouring the inventor who brought organic semiconductors to light: Karl Leo named European Inventor Award 2021 finalist
- German scientist nominated for European Patent Office (EPO) prize for his life's work in the field of organic semiconductors
- Leo's pioneering method of boosting organic semiconductors with electron‑producing substances ushered in a new generation of highly efficient, cost-effective and silicon-free organic light-emitting diodes (OLEDs)
- His inventions have transformed the electronics industry, and are paving the way for a new generation of solar technologies
Munich, 4 May 2021 - The European Patent Office (EPO) announces that German scientist, professor and entrepreneur Karl Leo has been nominated as a finalist in the "Lifetime achievement" category of the European Inventor Award 2021. Leo's pioneering work with organic semiconductors led to the development of highly-efficient organic light-emitting diode (OLED) display technology. The full impact of Leo's innovations can be seen across the electronics industry, with OLEDs providing enhanced image brightness, colour resolution and power efficiency in the latest models of smartphones and other electronic devices we use every day.
Leo, an internationally renowned physicist, is also an entrepreneur who, over the course of his career to date, has co-founded numerous start-ups in Germany's ‘Silicon Saxony' tech region. He has channelled his research breakthroughs into commercially successful electronics and photovoltaics businesses and his achievements in the field of organic semiconductors have even earned him the nickname Organik Papst - the ‘Pope of Organics'.
"Throughout his prolific career, Karl Leo's ingenuity and business acumen have driven him to develop powerful technology that, today, is used by millions of people worldwide," says EPO President António Campinos, announcing the European Inventor Award 2021 finalists. "His effective use of intellectual property rights has supported him, enabling Leo to found companies and commercialise inventions across multiple sectors."
The winners of the 2021 edition of the EPO's annual innovation prize will be announced at a ceremony starting at 19:00 CEST on 17 June which has this year been reimagined as a digital event for a global audience.
The organic spark
As a self-professed basic researcher, Leo's work stems from a fundamental curiosity that is nevertheless grounded in practical applications. This passion began at a young age when Leo's affinity for repairing electronics earned him the nickname ‘the technician' among family members. His early fascination with household electronics later ignited his interest in semiconductors, which became the focus of his undergraduate thesis on solar cells at Freiburg's Fraunhofer Institute for Solar Energy Systems ISE in 1985. His first exploration of semiconductors motivated him to think about how electronic devices could be improved through the unique properties of semiconductors - such as the ability of diodes to pass current more easily in one direction.
Leo's PhD and early post-graduate career concentrated on inorganic semiconductors: semiconductors composed of non-carbon-based materials such as silicon or gallium arsenide. Leo would ultimately solidify his impact in the field of organic semiconductors when he accepted a full professorship in optoelectronics at Technische Universität Dresden (TU Dresden). At the time, his colleagues were researching organic semiconductors (composed of carbon-based materials) as an emerging alternative to more expensive inorganic components in electronic devices. While organic semiconductors were affordable, flexible and recyclable, they were still considered impractical, due to their poor electrical conductivity and short lifespan.
Leo noticed that few people had considered ‘doping' for organic semiconductors - adding tiny amounts of substances that produce freely moving electrons to boost a material's conductivity. Doping was already a common technique to increase the conductivity of inorganic semiconductors, for example, by adding traces of boron, arsenic, phosphorus or gallium to silicon wafers. Leo and his research group set out to see if this technique could also apply to organic semiconductors. They took basic organic semiconductor materials, such as lithium phthalocyanine-containing compounds (used for the blue colour on German autobahn signs) and added small organic molecules with electron-withdrawing properties such as bathophenanthroline. Using a vacuum evaporation process, the researchers then heated the base materials (in a powder form) until they evaporated, resulting in condensed semiconductor films.
The breakthrough came in 1998, when the highly talented PhD students Martin Pfeiffer and Jan Blochwitz in his team were able to create an organic semiconductor LED requiring only one-fifth of the voltage previously needed. Leo's organic semiconductors were more sustainable than inorganic semiconductors due to their high efficiency, long lifespan, low-energy production process and potential to be recycled. Motivated by these initial outcomes, Leo's team worked to refine the process even further. "We discovered that it was possible to raise the conductivity of organic semiconductors by a factor of one million or more, in some cases. We also realised that it could be used for devices, organic light-emitting diodes, solar cells, transistors and more," says Leo.
Commercialising basic research
Leo's work has always been fuelled by a passion for research and an innate curiosity. His successes have also depended on an entrepreneurial spirit. Over the course of his career to date, Leo has co-founded numerous start-ups in Germany's ‘Silicon Saxony' tech region. He recognises the value of IP protection in this process, noting that "no investor will invest in a technology company without a solid intellectual property base".
In 2001, for example, Leo co-founded the German start-up company Novaled AG® to commercialise OLED technologies and materials. Leo was named in a patent application filed by Novaled for a transparent, thermally stable and easy-to-produce OLED with unmatched power efficiency, and the European patent was granted in 2006. This European patent laid the basis for Novaled's PIN OLED® technology, which was introduced in flat-screen displays and OLED lighting with double the efficiency of any competitor on the market. Leo's PIN OLEDs eventually attracted Samsung, which acquired Novaled in 2013 for EUR 260 million.
In 2004, Leo, his team of researchers, and the University of Ulm began adapting the semiconductors to organic solar cells, hoping to bring similar success to this field. In 2006, they filed a patent application in the name of Heliatek GmbH®. Leo is co-founder of the solar technology spin-off which has created the world's first industrial-grade ultra-light, sustainable and flexible organic solar film that can be mounted on buildings that cannot physically or legally carry conventional solar modules.
The organic semiconductor field-form transistors Leo hopes to bring to market next could have many practical applications for electronic circuits in displays, solar energy and even bioelectronics. As a professor and business co-founder, the 60-year-old has never stopped striving to advance the field of organic semiconductors. "I see opportunities beyond what has been achieved today," he says.
Notes to the editor
About the inventor
Prof. Dr Karl Leo
was born in Freiburg im Breisgau, Germany on 10 July 1960. Following his
undergraduate physics studies in Freiburg, he received a PhD from the
University of Stuttgart and Max-Planck-Institute for Solid State Research.
After an early post‑graduate career focused on
inorganic semiconductors at AT&T Bell Laboratories in the United States and
then in Germany at RWTH Aachen University, he accepted a full professorship in
optoelectronics at Technische Universität Dresden (TU Dresden) in 1993. His research on improving organic semiconductor
conductivity led to the commercialisation of components such as organic
light-emitting diodes (OLEDs), and the acquisition of the OLED spin-off
Novaled by Samsung. He lives with his wife and two children in Dresden, where
he is Chair and Professor of Optoelectronics at TU Dresden and Director of the
interdisciplinary Dresden Integrated Center for Applied Physics and Photonic
Materials (IAPP). He is named in 22 granted European patents and is the
co-founder of several companies.
Karl Leo is named in 22 granted European patents, including the patents EP1488468, EP1861886, and EP2658006 which form the basis of his nomination for the European Inventor Award.
About the European Inventor Award
The European Inventor Award is one of Europe's most prestigious innovation prizes. Launched by the
EPO in 2006, it honours individual inventors and teams of inventors whose
pioneering inventions provide answers to some of the biggest challenges of our
times. The finalists and winners are selected by an independent jury consisting of international authorities from the fields of business,
politics, science, academia and research who examine the proposals for their
contribution towards technical progress, social development, economic
prosperity and job creation in Europe. The Award is conferred in five
categories (Industry, Research, SMEs, Non-EPO countries and Lifetime
achievement). In addition, the public selects the winner of the Popular Prize from among the 15 finalists through online voting.
About the EPO
With 6 400 staff, the European Patent Office (EPO) is one of the largest public service institutions in Europe. Headquartered
in Munich with offices in Berlin, Brussels, The Hague and Vienna, the EPO was
founded with the aim of strengthening co-operation on patents in Europe.
Through the EPO's centralised patent granting procedure, inventors are able to
obtain high-quality patent protection in up to 44 countries, covering a market
of some 700 million people. The EPO is also the world's leading authority
in patent information and patent searching.
Media contacts European Patent Office
Luis Berenguer Giménez
Principal Director Communication, Spokesperson
Tel.: +49 89 2399 1203