Multifunctional structures with quasi-solid-state Li-ion battery cells and sensors for the next generation climate neutral aircraft

HORIZON.2.5HORIZON-RIAID: 101056674
EC Contribution
€34,697
Consortium Size
8 orgs
Summary

MATISSE responds to the fourth bullet of the HORIZON-CL5-2021-D5-01-05 topic “expected outcome”, delivering improved aircraft technologies in the area of multifunctional structures capable of storing electrical energy for hybrid electric aircraft applications. This consists in integrating Li-ion cells into aeronautical composite structures, sharing the load-bearing function with the structure and achieving an aircraft structural element capable of functioning as a battery module. To do so, MATISSE will:• advance Li-ion battery cell technology, in a non-conventional formulation suitable for bearing structural loads: NMC811 (cathode), Si/C (anode) and bicontinuous polymer-ionic quasi-solid-state electrolyte (BCE), i.e. NMC811|BCE|Si/C, achieving 170-270 Wh/kg at cell level;• enable the functional integration of Li-ion cells into solid laminate and sandwich composite structures;• make the structural battery smart, by equipping it with on-cell and in-structure sensors, connected to a chip-based CMU (Cell Monitoring Unit) and PLC (Power Line Communication).MATISSE delivers a multifunctional structure demonstrator capable of power delivery, power management and safety monitoring. This consists of a full-scale wing tip (1.42 m × 0.69 m) for use in place of the current wingtip assembly installed on Pipistrel Velis Electro, embedding a module of 40 battery cells at 72 VDC. This will undergo a comprehensive testing and characterisation campaign, qualifying the technology at TRL 4 at the end of the project (2025). MATISSE will also encompass aspects related to flight certification, life-cycle sustainability and virtual scale-up, paving the way towards the application of structural batteries as an improved performance key enabling technology for next generation commuter and regional hybrid electric aircraft applications.

Consortium (8)

Project Results (12)

Source: CORDIS, the EU research results database.

Publications (8)
Structural Batteries for Aeronautic Applications
Lecture Notes in Mobility, Transport Transitions: Advancing Sustainable and Inclusive Mobility· 2025DOI
Helmut Kühnelt, Alexander Beutl, Qixiang Jiang, Alexander Bismarck, Frédéric Laurin, Ignazio Dimino, Alejandro Treceño Fernández, Michele Vitelli
Experimental and numerical strategy for the integration of solid-state battery cells into high-performance composite structures for aeronautics
· 2024DOI
F. Laurin, J. Luco, J.-M. Garcia, F. Saffar, A. Beutl, H. Kuehnelt
Multifunctional Structural Batteries in Composites – Towards a More Efficient Electrification of Aviation
Lecture Notes in Mechanical Engineering, Dynamic Response and Failure of Composite Materials· 2024DOI
Alejandro Treceño-Fernández
Multifunctionality and Processability of a Thermoplastic Based Gel Electrolyte Cell for the Realization of Structural Batteries
The Journal of Physical Chemistry C· 2024DOI
Martin Krammer, Susan Montes, Helmut Kühnelt, Qixiang Jiang, Daniel Lager, Alexander Bismarck, Alexander Beutl
SENSIBUS: a Novel One Wire Protocol for Smart Sensors
2024 9th International Conference on Smart and Sustainable Technologies (SpliTech)· 2024DOI
Leonardo Balocchi, Michele Vitelli, Mario Molinara, Stefania Bonafoni, Luca Roselli, Simone Contardi, Iacopo Nannipieri
The promise of zero weight penalty energy storage - Structural batteries for aeronautic applications
· 2024DOI
Kühnelt, Helmut; Beutl, Alexander; Jiang, Qixiang; Bismarck, Alexander; Laurin, Frédéric; Dimino, Ignazio; Treceño Fernandez, Alejandro; Vitelli, Michele
Aero-fit structural batteries
· 2023DOI
Kühnelt, Helmut
Multifunctional structural batteries – the promise of weight reduction in hybrid electric aircraft
· 2023DOI
Helmut Kuehnelt
Deliverables (4)