International battery policies: What strategies do the leading countries have?

Pressemitteilung /

Countries around the world are developing political strategies for battery technologies or adapting them to global developments. In this context, a new study by Fraunhofer ISI, commissioned by the BMBF, analyses the various battery policies and objectives with a focus on three areas of battery technology research: lithium-ion, solid-state and alternative batteries. The report analyses the following countries: Japan, South Korea, China, the USA, Europe, and Germany.

© Fraunhofer ISI

Europe must make further progress in decarbonising the energy and transport sector. A European battery ecosystem with scaled production and circular supply chains can contribute to achieving this goal. However, developments are being influenced by international crises and existing alliances are being put to the test, meaning that access to critical technologies is increasingly taking centre stage. These and other aspects need to be considered when developing battery ecosystems, which are currently emerging in many countries such as Germany and throughout the EU.

 

In this context, an international comparison between the different battery policy strategies of the leading countries is helpful - this is precisely the subject of the new study »Benchmarking International Battery Policies« by Fraunhofer ISI, which was commissioned by the German Federal Ministry of Education and Research (BMBF). The report focuses on lithium-ion, solid-state and alternative batteries as well as the political goals and strategies of Japan, South Korea, China, the USA, Europe, and Germany. The authors of the study analysed national announcements, publications and roadmaps describing the political and technical goals, key performance indicators and funding strategies of the countries mentioned.

Funding for battery research has increased significantly worldwide

The results show that all countries are pursuing their own goals to become less dependent on international supply chains. Climate neutrality by 2045 (Germany) or 2050 is another common goal, except for China (2060), but country-specific targets for sustainability and recycling vary widely. It also became clear that all countries have significantly increased their public funding for research and development (R&D) since 2014, partly due to new strategies (USA: Bipartisan Infrastructure Act, Japan: Green Growth Strategy, Korea: Secondary Battery Innovation Strategy) and strategic programmes (Germany: Dachkonzept Batterieforschung 2023) from 2020 onwards. Funding has doubled or even tripled for the countries compared to the situation before 2020.

A cross-country analysis in the study on key performance indicators such as gravimetric and volumetric energy density, cycle life or cost revealed that each country defines a different number of KPIs with varying degrees of feasibility: Some of the countries rely on a large number of KPIs, e.g. China for lithium-ion, solid-state and alternative liquid electrolyte-based batteries, while others such as South Korea focus on a smaller number of core KPIs for specific technologies such as solid-state, lithium-sulphur and lithium-metal batteries. In some cases, the KPIs are defined as targets to be achieved through public funding programmes (for example, the US energy density target of 500 Wh/kg in the Battery500 consortium) or in other cases they are applied to next-generation technologies with even more uncertain development potential (for example, Japan's targets for commercialisation of zinc anode/fluoride shuttle batteries after 2030).

The study shows the following results when analysing the individual countries separately:

- China has long relied heavily on a demand-based policy and focussed on its own domestic market for electric vehicles but is now increasingly moving towards a targeted battery strategy with increasing supply-side measures. In 2022, the country had the world's largest market share in the battery industry and is trying to strengthen its global market position. China has long focussed on performance parameters such as energy density but is now increasingly including more qualitative parameters such as safety. The government has defined specific targets in terms of sustainability, also with a view to expanding into the European market. The focus is currently on lithium-ion, solid-state, metal-sulphur and lithium-sulphur batteries.

- In the past, Germany pursued an open-technology strategy for battery technologies with many different measures, but a specific strategy for performance parameters was introduced with the »umbrella concept for battery research« updated in January 2023. This concept also focuses on the development of production processes on a larger scale to expand production capacities. In addition, joint projects and funding with European industry are aimed at a uniform approach to the implementation of EU policies on topics such as sustainability, recycling, and the digitalisation of batteries. On the technological side, the German strategy has defined specific targets for the development of solid-state, sodium-ion and other alternative batteries.

- As a former technology leader, Japan has traditionally focussed on the supply side. However, as the country has steadily lost market share in global competition, priority has recently been placed on expanding production capacity and securing the domestic and global market for lithium-ion batteries, for example as part of a strategy formulated for the Japanese battery industry in 2022. In terms of technology, the country is focusing on lithium-ion, solid-state and alternative battery types such as fluoride shuttle and zinc anode batteries, and Japan is the only country to have defined performance parameters for alternative battery prototypes by 2025.

- The US has invested in both supply-side and demand-side measures, including through programmes such as the Inflation Reduction Act 2022. In terms of innovation policy, the country tends to pursue an open-technology strategy with the aim of becoming an international leader in R&D and gaining greater independence from competitors, particularly China. In this context, a recently published national plan also defines performance parameters for the cost and sustainability of batteries. Solid-state and lithium-metal batteries, as well as lithium-ion and lithium-metal batteries with liquid electrolyte, are regarded as future »revolutionary battery technologies«. The focus is also on supplying the domestic market.

- South Korea is striving to become an international leader in the battery industry. The country's strategy shows a clear R&D focus on the commercialisation of lithium-sulphur (2025), solid-state (2027) and lithium-metal batteries (2028). South Korea has not only committed to promoting its e-mobility industry, but has also provided direct support to battery manufacturers, such as extensive tax incentives. Another unique aspect of the strategy is that three large private companies are making major investments together with the government. The country is focussing on lithium-ion, solid-state and next-generation batteries, but lithium-sulphur and lithium-metal batteries are also mentioned.

- The EU's battery policy can be described as supply-side, but also contains demand-side elements that affect the end of the value chain regarding the purchase of electric vehicles. As the EU's main priority is environmental issues, there are ambitious targets on battery sustainability and recycling, which have also been included in the new EU Battery Regulation. The focus is on lithium-ion, solid-state and alternative battery types such as redox-flow, metal-air, and sodium-ion batteries. The main objective is to become a leading supplier of sustainable battery technologies to create a competitive and sustainable value chain for batteries in the EU.

All the countries analysed have fairly up-to-date strategies for battery ecosystems

Project manager Dr Axel Thielmann from Fraunhofer ISI explains: »Our study shows that all countries have very up-to-date strategies due to the critical phase of the market ramp-up for electromobility between 2020 and 2030, the current geopolitical situation and the desire for technological sovereignty. These are increasingly market- and industry-orientated and supply- and demand-side measures for the development of circular battery ecosystems are increasingly being combined.«

According to the authors of the study, there is no one right way to promote technology development, as the success of China underlines: the country has built a robust, internationally competitive battery value chain and is a leader in battery research and development. Future policy strategies should be based more on key performance indicators and monitoring the status quo, especially considering the ever-increasing funding budgets and their adequate utilisation. It would also be beneficial to clarify how these performance indicators could be integrated into ongoing R&D activities to be able to map progress in the commercialisation of optimised lithium-ion batteries.

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