ORANGEES
OR g AN ics for G reen E lectrochemical E nergy S torage
Innovative, eco-sustainable and low-cost materials for application in electrochemical storage systems (SAE), such as batteries and supercapacitors (SC)
Innovation
Eco-sustainability
low cost
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Mission
The activity of the ORANGEES project aimed at the synthesis, characterization and validation of innovative, eco-sustainable and low-cost materials for application in electrochemical storage systems (SAE), such as batteries and supercapacitors (SC).
The activities concern the study of both hybrid and purely organic materials, isolating among these those obtained from waste compounds with the idea of increasing the degree of environmental sustainability of storage technologies in the medium-long term.
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Goals
The project’s fundamental idea is to explore the potential that different types of organic compounds can offer as substitutes for some of the main materials used in the various components of an SAE.
The Project Phases
The results achieved are the fruit of a multi-year project that required constant commitment and meticulous attention. Below, we will examine in more detail the various phases and activities carried out within the Orangees project.
The Project Phases
The results achieved are the fruit of a multi-year project that required constant commitment and meticulous attention. Below, we will examine in more detail the various phases and activities carried out within the Orangees project.
WP 1
Study of organic-inorganic hybrid compounds for electrochemical storage systems
Study of organic-inorganic materials for application in AE, battery, and SC systems, in order to identify their potential in terms of performance and sustainability in the medium term.
WP 2
Study of organic materials for electrochemical storage systems
Study of organic compounds, both synthetic and directly derived from nature, for the development of: new electrolytes, new binders, and some families of crystalline organic compounds.
WP 3
Study of organic waste materials for electrochemical storage systems
Study, synthesis, and validation of a series of compounds derived from manufacturing waste, with a view to sustainability aimed at embracing the concepts of the circular economy.
WP 4
Support activities for improving the performance and environmental/economic sustainability of next-generation electrochemical systems
Research and development aimed at providing both support for some previous WPs and providing additional technical solutions. Specifically: theoretical simulation /modeling activities, LCA analysis, and functional texturing development .
WP 5
Results dissemination activities
The dissemination of scientific results, guaranteed by the heterogeneous group, will act as a catalyst for a massive diffusion towards industrial sectors that still possess “unaware” potential that can be developed and implemented in the AE sector.
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The Partners
The Press Review
They say about us
Through this dedicated area, we aim to make the latest scientific discoveries accessible, promoting discussion and in-depth study on topics related to the Orangees project. We invite you to explore the world of research with us and actively participate in the scientific debate.
Accumulation and storage of energy from renewable sources
