Press release | 19.10.2021
Munich, 19 October 2021 - From a global perspective, Europe and the US are leading innovation in plastic recycling and alternative plastics technologies, a new study published today by the European Patent Office (EPO) shows. Europe and the US each accounted for 30% of patenting activity worldwide in these sectors between 2010 and 2019, or 60% combined. Within Europe, Germany posted the highest share of patent activity in both plastic recycling and bioplastic technologies (8% of global total), while France, the UK, Italy, the Netherlands and Belgium stand out for their higher specialisation in these fields.
Titled Patents for tomorrow's plastics: Global innovation trends in recycling, circular design and alternative sources, the study presents a comprehensive analysis of the innovation trends for the period 2010 to 2019 that are driving the transition to a circular economy for plastics. The report looks at the number of international patent families (IPFs), each of which represents an invention for which patent applications have been filed at two or more patent offices worldwide (so-called high-value inventions). It aims to provide a guide for business leaders and policymakers to direct resources towards promising technologies, to assess their comparative advantage at different stages of the value chain, and to highlight innovative companies and institutions that could contribute to long-term sustainable growth.
"While plastics are essential to the economy, plastic pollution is threatening ecosystems all over the planet," said EPO President António Campinos. "The good news is that innovation can help us to address this challenge by enabling the transition to a fully circular model. This study offers key insights into a range of promising new technologies that foster the reusability, recyclability and bio-degradability of plastic products. It highlights Europe's contribution to innovation in this sector, but shows that much more can be done to turn pioneering European research into inventions and to bring them to market."
The study highlights that of all recycling technologies, the fields of chemical and biological recycling methods generated the highest level of patenting activity in the period under review. These methods accounted for 9 000 IPFs in 2010-19, double the number filed for mechanical recycling (4 500 IPFs), which is currently the most commonly used solution to transform plastic waste into new products. While the patenting of standard chemical methods (such as cracking and pyrolysis) reached a peak in 2014, emerging technologies such as biological methods using living organisms (1 500 IPFs) or plastic-to-monomer recycling (2 300 IPFs) now offer new possibilities to degrade polymers and produce virgin-like plastics.
The report also finds that in the chemical and biological recycling fields, fundamental research plays a much more significant role than in other plastic recycling technologies, with nearly 20% of inventions originating from universities and public research organisations (see Figure: Fundamental research in recycling technologies, 2010-19). In terms of geographic location of these universities and public research organisations, Europe and the US have a clear lead, each with 29% of those IPFs stemming from research institutions. The report shows that Europe is the only major innovation hub to contribute a larger share of the chemical and biological recycling inventions from fundamental "upstream" research (29%) than overall in the field (26%). By contrast, the US and Japan's contributions to upstream IPFs (29% and 11%) are lower than their respective shares in all IPFs (36% and 17%). Meanwhile, US start-ups and scale-ups generated four times as many IPFs in chemical and biological recycling as their European counterparts (338 v. 84). This suggests that Europe, despite being particularly active in fundamental research, is not exploiting its full potential when it comes to transferring these technologies to industry.
In the area of bioplastic inventions, the study finds that the healthcare sector has by far the most patenting activity in total (more than 19 000 IPFs in 2010-19), despite accounting for less than 3% of the total demand for plastics in Europe. However, the cosmetics and detergents sector has the largest share of its patenting activity in bioplastics, with the ratio of bioplastics IPFs to conventional plastics IPFs being 1:3, compared to 1:5 in the healthcare sector. Packaging, electronics and textiles are also significant contributors to innovation in bioplastics.
Looking ahead, the study highlights significant potential in new plastic designs for easier recycling, an area of alternative plastics which has developed exponentially in recent years, with an average annual growth rate of 10% since 2010. These technologies have potential applications in aerospace, construction, transportation, wind turbines and microelectronics. The rapid growth of patenting in these fields is almost entirely driven by innovation in dynamic covalent bonding - an approach allowing for novel designs of durable plastic materials capable of self-repairing. While Japan has a strong lead in this field, most of the inventions coming from universities and public research organisations in this field originate from European and US research institutions.
Aimed at decision-makers in both the private and public sectors, Patents for tomorrow's plastics is a unique source of intelligence on these technologies and the technical problems they aim to address. The report draws on the latest information available in patent documents and the technical expertise of EPO patent examiners to provide a comprehensive analysis of the innovation trends driving the transition towards a circular economy for plastics.
The analysis was done based on international patent families (IPFs), each of which represents a unique invention and includes patent applications filed in at least two countries or a regional patent office, as well as international patent applications. IPFs represent inventions deemed important enough by the inventor to seek protection internationally, and only a relatively small percentage of applications meet this threshold. This concept can therefore be used as a sound basis for comparing international innovation activities. As patent applications are filed many months, or even years, before products appear on the market, they are often seen as an early indicator of future technology trends.
The report also includes case studies illustrating a range of inventions in recycling and alternative plastics technologies.
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.
Luis Berenguer Giménez
Principal Director Communication / Spokesperson
EPO Press Desk
Tel.: +49 89 2399 1833