Horizon Europe Funds Major Project to Advance Bipolar Solid-State Battery Architectures

June 28, 2026

欧州委員会プレスリリース Europe

Overview

The European Union’s Horizon Europe program has awarded substantial funding to a new international research project focused on advancing bipolar solid-state battery (SSB) architectures. This multi-partner initiative aims to overcome manufacturing hurdles and demonstrate high-performance, compact SSB packs with improved thermal management and modularity. Targeting diverse applications including electric vehicles and stationary storage, this project seeks to bolster Europe’s position in advanced battery technology.

In Depth

EU Strategic Investment in Advanced Battery Technology

The European Union, through its leading research and innovation funding program, Horizon Europe, has announced significant financial support for a new international research project dedicated to advancing bipolar solid-state battery architectures. This strategic investment underscores Europe’s commitment to accelerating the adoption of electric mobility and renewable energy, which are crucial for climate change mitigation and enhancing energy self-sufficiency. High-performance battery technology is deemed essential for these goals, with solid-state batteries holding particular promise. The funding represents a concerted effort by Europe to close the gap with, and ultimately lead, other regions, especially Asia, in advanced battery technology. By strengthening domestic R&D and manufacturing capabilities, the EU aims to foster a more resilient supply chain and greater economic independence.

Advancing Bipolar Solid-State Battery Architectures

This multi-partner initiative, involving prominent European research institutions and industrial firms, aims to address and overcome critical manufacturing challenges associated with solid-state batteries. The project’s ultimate objective is to demonstrate high-performance, compact solid-state battery packs featuring enhanced thermal management and modularity, suitable for various applications including electric vehicles (EVs) and stationary energy storage systems.

The research will specifically target key technological barriers in the design and manufacturing of bipolar solid-state batteries. A bipolar configuration, which involves stacking cells in series, not only boosts battery pack voltage and energy density but also simplifies the overall pack structure and offers significant potential for optimized thermal management. The project will concentrate on developing novel solid electrolyte materials, improving performance at the crucial electrode-electrolyte interface, and establishing scalable manufacturing processes. This comprehensive approach seeks to achieve more efficient, safer, and more compact solid-state battery packs compared to conventional battery technologies.

Outlook and Global Impact

This Horizon Europe-supported project holds significant potential to accelerate the commercialization of bipolar solid-state battery technology. The innovations developed through this initiative are expected to contribute to extended EV ranges, faster charging times, and improved safety, while also bringing advancements to grid-scale energy storage solutions. If successful, Europe is positioned to enhance its autonomy in battery technology and emerge as a stronger player in the global electrification race. In the long term, this technology is anticipated to be a crucial enabler for both a sustainable energy transition and robust economic growth.

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