Atomic Layer-coated Graphene Electrode-based Micro-flexible and Structural Supercapacitors

Digital, Industry & SpaceHORIZON-RIAID: 101120677
EC Contribution
€44,989
Consortium Size
11 orgs
Start Year
2023
Summary

The overall objective of the ARMS project (Atomic layer-coated gRaphene electrode-Based Micro-flexible and Structural supercapacitors (ARMS) is to integrate comprehensive materials and processes, including graphene-rich bio-based carbon materials and graphene-decorated carbon fibers, and to develop scalable and cost-effective atomic layer deposition (ALD) manufacturing technology to fabricate totally eco-friendly supercapacitors with energy density reaching > 50 Wh/kg that is comparable to batteries without sacrificing the power density, cycle life or eco-friendliness, and open up opportunities to establish a new value chain for supercapacitor manufacturing with European SMEs as key players. The consortium will achieve this goal by a combination of factors, working in a coordinated fashion: process modification to enable production of high-graphene-content porous carbon for printed flexible energy storage, conformal graphene coating onto carbon fibres for structural supercapacitors, decoration of both types of electrodes with ultra-thin conformal ALD coating of MnO2 and Fe2O3 for increased stability and voltage window (to be scaled up to roll-to-roll by Beneq), and development of novel, environmentally-friendly electrolytes. The energy storage devices enabled by this work will be integrated into two use-case demonstrators to show the viability of the concept: a wireless sensor device powered a printed flexible supercapacitor, and a drone powered by structural supercapacitors which are simultaneously structural parts of the drone.

Consortium (11)

Project Results (8)

Source: CORDIS, the EU research results database.

Publications (2)
Enhancing specific capacitance and energy density in printed supercapacitors: The role of activated wood carbon and electrolyte dynamics
Carbon Trends· 2025DOI
Hamed Pourkheirollah, Remuel Isaac M. Vitto, Aleksandrs Volperts, Steffen Thrane Vindt, Līga Grīnberga, Gints Kučinskis, Jari Keskinen, Matti Mäntysalo
Long-Term Performance of Activated Wood Carbon Printed Supercapacitors: A Sustainable Alternative to Conventional Activated Carbon
2025 IEEE International Conference on Flexible and Printable Sensors and Systems (FLEPS)· 2025DOI
Remuel Isaac M. Vitto, Hamed Pourkheirollah, Aleksandrs Volperts, Steffen Thrane Vindt, Līga Grīnberga, Gints Kučinskis, Chirag Mevada, Jari Keskinen, Matti Mäntysalo
Deliverables (5)
Other Results (1)
Periodic Reporting for period 1 - ARMS (Atomic Layer-coated Graphene Electrode-based Micro-flexible and Structural Supercapacitors)