Technische Universität München
More academic freedom leads to more innovation
TECHNICAL UNIVERSITY OF MUNICH
NEWS RELEASE
Study establishes link for the first time
More academic freedom leads to more innovation
• Data analyzed from 1900 to 2015 in around 160 countries
• Patent applications decline when scientific freedom is restricted
• Loss of 4–6% in innovation capacity predicted
The innovative strength of a society depends on the level of academic freedom. An international team involving the Technical University of Munich (TUM) has now proven this relationship for the first time. The researchers analyzed patent applications and patent citations in a sample from around 160 countries over the 1900–2015 period in relation to indicators used in the Academic Freedom Index. In view of the global decline in academic freedom over the past 10 years, the researchers predict a loss in innovative output.
In many countries scientists have experienced a loss of academic freedom in recent years. This trend has come in for criticism on the basis of fundamental principles. However, there has been no research to date on whether the degree of academic freedom also has an impact on a society’s ability to produce innovations.
For the first time an international team of researchers has studied the relationship between academic freedom and innovation output. As indicators for the quantity and quality of innovations, the researchers used patent applications and citations. Their analysis covered the 1900–2015 period in 157 countries. The team analyzed two large and respected datasets and put the results into relation: the V-Dem Dataset (Varieties of Democracy) from the V-Dem Institute at the University of Gothenburg encompasses various democracy indicators, some of which date back to 1789. They include freedom of science, which the institute, together with FAU Erlangen-Nuremberg, has also presented in the Academic Freedom Index for several years. The team obtained data on numbers of patent applications and citations from the PATSTAT database from the European Patent Office.
“Alarming signs for many countries”
The study shows that more freedom for the work of scientists results in more innovations. When the degree of academic freedom improves, this is followed by increases in the numbers of patent applications and, subsequently, in the number of patent citations.
However, the situation for academic freedom declined on a global scale during the period 2011–2021 for the first time in the last 100 years. This also applies to the group of 25 countries with the strongest science base. For that decade, the research team used the results of the study to calculate the impact of the decline. “We predict a global decline of 4–6% in innovative capability. In the leading countries, the figure is as high as 5–8%,” says study author Paul Momtaz, Professor of Entrepreneurial Finance at TUM.
“The results are an alarming sign for many countries. Those who restrict academic freedom also limit the ability to develop new technologies and processes and therefore hinder progress and prosperity,” says Paul Momtaz. “We see this trend not only in dictatorships, but also increasingly in democratic states where populist parties have gained influence.”
Numerous robustness checks confirm results
The researchers conducted several checks to confirm the robustness of the link between academic freedom and innovative output. For example they checked whether the correlation actually results from academic freedom in particular or from general freedom in a society. They also ruled out reverse causality, in other words the possibility of countries allowing more academic freedom when innovative output is too low. The results of the study were also confirmed when narrowing the perspective to countries with very high or very low numbers of patent applications, when only the post-1980 period was considered or when limiting the analysis to specific aspects of academic freedom.
Publication:
Audretsch DB, Fisch C, Franzoni C, Momtaz PP, Vismara S (2024) Academic freedom and innovation. PLoS ONE 19(6): e0304560. https://doi.org/10.1371/journal.pone.0304560
Further information:
Scientists from the Technical University of Munich, Indiana University, the University of Luxembourg, the Polytechnic University of Milan and the University of Bergamo were involved in the study.
Subject matter expert:
Prof. Dr. Dr. Paul P. Momtaz
Technical University of Munich (TUM)
Professorship of Entrepreneurial Finance
Tel.: +49 89 289 25489
momtaz@tum.de
TUM Corporate Communications Center contact:
Klaus BeckerMedia relations
Tel.: +49 89 289 22778
presse@tum.de
The Technical University of Munich (TUM) is one of the world’s leading universities in terms of research, teaching and innovation, with around 650 professorships, 52,000 students and 12,000 staff. TUM’s range of subjects includes engineering, natural and life sciences, medicine, computer sciences, mathematics, economics and social sciences. As an entrepreneurial university, TUM envisages itself as a global hub of knowledge exchange, open to society. Every year, more than 70 start-ups are founded at TUM, which acts as a key player in Munich’s high-tech ecosystem. The university is represented around the world by its TUM Asia campus in Singapore along with offices in Beijing, Brussels, Mumbai, San Francisco and São Paulo. Nobel Prize laureates and inventors such as Rudolf Diesel, Carl von Linde and Rudolf Mößbauer have conducted research at TUM, which was awarded the title of University of Excellence in 2006, 2012 and 2019. International rankings regularly cite TUM as the best university in the European Union.