INNOVATIVE PILOT LINES FOR SUSTAINABLE GRAPHENE-BASED FLEXIBLE AND STRUCTURAL ENERGY HARVESTING AND STORAGE DEVICES

Digital, Industry & SpaceHORIZON-RIAID: 101120832
EC Contribution
€44,993
Consortium Size
11 orgs
Start Year
2023
Summary

GRAPHERGIA aims is to develop a new science-based, holistic approach, implementing new advances to achieve one-step, laser-assisted synthesis, processing, functionalization and simultaneous integration of graphene-based materials and graphene nanohybrids, directly into relevant energy harvesting/storage devices. This will lead to a scalable, cost-effective and climate-neutral production of (i) e-textiles with the specific functions of wearable power supplying and self-powered structural sensors and (ii) next generation electrodes for Li-ion batteries. Based on current TRL 3-4 activities, the consortium explores novel ideas for 2D materials engineering and integration at TRL 5 or higher, establishing versatile pilot-scale-based approaches for these two types of applications. Configurations of TENG-based e-textiles will be prepared to fabricate flexible architectures, designed to sustainably convert energy from the environment to electricity. Laser-scribed solid-state micro-flexible supercapacitors, will be coupled to TENGs, via innovative power management circuits, acting as energy reservoirs to provide on-demand batteryless charging to wearable devices and sensors. All-in-one, self-charging power textiles with integrated electronic systems will provide a human-body-centric technology and interface of the user to the IoT by wireless transmission of sensors’ signals. In parallel, GRAPHERGIA defines a credible “dry electrode” approach to fabricate next generation electrodes for Li-ion batteries aspiring to reach the technical/economic targets of the 2030 European SET-plan. The proposed methodology will be implemented by blending recently devised IPR-protected technologies of consortium partners. To achieve these targets, a combined 2D materials and process-oriented approaches will be adopted, based on low-cost raw materials and inherently scalable fabrication approaches to ensure a cost-effective and climate-neutral production of energy harvesting and storage devices.

Consortium (11)

Project Results (14)

Source: CORDIS, the EU research results database.

Publications (10)
Chemical Engineering Journal
Chemical Engineering Journal· 2025DOI
Samartzis, Nikolaos; Bhorkar, Kapil; Sygellou, Labrini; Bellou, Elli; Nikos, Boukos; Athanassios, Chrissanthopoulos; Yannopoulos, Spyros
GRAPHERGIA Scientific Publication: Power management technologies for triboelectric nanogenerators
MRS BULLETIN· 2025DOI
Du, Sijun; Basset, Philippe; Hengyu, Guo; Galayko, Dimitri; Armine, Karami
GRAPHERGIA Scientific Publication: Solving ZIB challenges: the dynamic role of water in deep eutectic solvents electrolyte
Journal of Materials Chemistry A· 2025DOI
Emanuele, Elisa; Batignani, G.; Cerullo, G.; Leita, G.; Madathiparambil Mohanan, N.; Mai, Emanuele; Martinati, M.; Mele, C.; Scopigno, Tullio; Bozzini, B.
On The Optimal Choice Of Electrical Conditioning Circuits For Triboelectric Nanogenerators
· 2025DOI
Mortada, Hachem; Karami, Armine; Haghighi-Talab, Delaram; Delbani, Ahmad; Galayko, Dimitri; Basset, Philippe
GRAGERGIA Poster - Innovative pilot lines for sustainable Graphene-based flexible and structural energy harvesting and storage devices
· 2024DOI
Merli, Elena; Spinelli, Daniele; Maccanti, Matteo; Canesi, Ilaria
GRAPHERGIA Abstract: Fabrication of Laser-induced Micro-Supercapacitors for structurally-integrated power storage systems
· 2024DOI
Saruhan-Brings, Bilge; RAY, APURBA
GRAPHERGIA Poster: Smart textiles based on triboelectric nanogenerators
· 2024DOI
Batsouli, Despoina; Paparouni, Chrysanti; Samartzis, Nicolas; Athanasiou, Michail; Siokou, Elina; Baltopoulos, Athanasios; Vavouliotis, Antonios; Yannopoulos, Spyros
GRAPHERGIA Scientific Publication: X-ray photoelectron spectroscopy analysis of electrospun polyacrylonitrile fibers
Surface Science Spectra· 2024DOI
Amirali, Eleni; CHRONOPOULOS, IOANNIS-NEKTARIOS; Yannopoulos, Spyros; Sygellou, Labrini
Physical Review Letters
Physical Review Letters· 2024DOI
Batignani, Giovanni; Mai, Emanuele; Martinati, Miles; Neethish, Mohanan Madathiparambil; Mukamel, Shaul; Scopigno, Tullio
Quasi-solid polymer electrolytes for all-in-one self-charging structural energy storage devices
· 2024DOI
Apurba Ray, Bilge Saruhan
Deliverables (3)
Other Results (1)
Periodic Reporting for period 1 - GRAPHERGIA (INNOVATIVE PILOT LINES FOR SUSTAINABLE GRAPHENE-BASED FLEXIBLE AND STRUCTURAL ENERGY HARVESTING AND STORAGE DEVICES)