LEOPARD

The LEOPARD project is framed within energy efficiency and the circular economy. Its main objectives are:
(a) to develop more efficient sodium-ion batteries, specifically focusing on the cathode to synthesize materials using a novel and sustainable method based on supercritical fluids, enabling the production of materials with improved properties compared to current ones.
The project also focuses on (b) establishing a sustainable and scalable recycling method for sodium batteries, also based on the use of supercritical fluids, which allows the recovery of high value-added materials for reintegration into new cathode materials or for refurbishing existing ones and reusing them as cathodes.
Finally, the project is accompanied by a life cycle assessment that will support the project in evaluating and proposing solutions with a lower environmental impact. This analysis will make it possible to identify areas for improvement in terms of sustainability and ensure that the developed technologies contribute to a more circular economy.

Fecha de inicio

28/10/2025

Fecha de finalización

28/10/2028

Duration

36 months

Entidad financiadora

Junta de Extremadura

Tipo de convocatoria

Regional

Convocatoria

Ayudas PRI (línea 2 - proyectos de investigación)

Presupuesto del CIIAE

199.555,38€

Presupuesto total

199.555,38€

Socios

Departamento

Electrical Energy Storage

Investigador(es) principal(es)

Paula Sanz Camacho

Página web del proyecto

Difusión de ayuda

The LEOPARD project is framed within energy efficiency and the circular economy. Its main objectives are:
(a) to develop more efficient sodium-ion batteries, specifically focusing on the cathode to synthesize materials using a novel and sustainable method based on supercritical fluids, enabling the production of materials with improved properties compared to current ones.
The project also focuses on (b) establishing a sustainable and scalable recycling method for sodium batteries, also based on the use of supercritical fluids, which allows the recovery of high value-added materials for reintegration into new cathode materials or for refurbishing existing ones and reusing them as cathodes.
Finally, the project is accompanied by a life cycle assessment that will support the project in evaluating and proposing solutions with a lower environmental impact. This analysis will make it possible to identify areas for improvement in terms of sustainability and ensure that the developed technologies contribute to a more circular economy.

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