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Disruptive Modes and Materials of Energy Storage

Descripción del proyecto

Comprender y aprovechar al máximo las últimas innovaciones en almacenamiento de energía

La creciente necesidad de conceptos de almacenamiento de energía ampliables, rentables y sostenibles ha propiciado una serie de materiales innovadores y tecnologías de alto rendimiento. Una lista de estas innovaciones incluye lograr que las baterías de sodio sean potencialmente seguras y eficientes, mejorar la capacidad de los electrodos de carbono nanoporoso, utilizar materiales híbridos y emplear cambios de estructura electroquímica para obtener mejores resultados. El objetivo del proyecto MoMa-STOR, financiado con fondos europeos, es evaluar estos modos de almacenamiento de energía novedosos y no cubiertos por la técnica, así como desarrollar el conjunto de materiales conexos, a fin de diseñar la próxima generación de dispositivos de almacenamiento de energía.

Objetivo

Sustainable energy generation by water, wind, and solar has reached in the EU a mature and economic state, but further growth to tackle the climate crisis has faltered because more economic, scalable and sustainable energy storage concepts are missing.
The groups of both PIs have a proven track record in this area but, interestingly they were able just recently to perform first experiments indicating big potential gains in performance. The Simon group identified a specific ion organization in nanoporous carbon electrodes leading to enhanced capacity. He also evidenced fast, new pseudocapacitive redox contribution in metal carbides of still unclear origin. The Antonietti group could not only build from oxidation stable noble carbons a 6.5 Volt supercapacitor, but also show that in those new device major storage peaks come from solvent structure changes. In another work, massive sub-potential deposition of Na-metal was observed is the Schottky transition layers of hybrid materials, thus making sodium batteries potentially save and efficient.
The general aim of MoMa-STOR is to address such fundamentally new, non-classical and non-technically covered modes of energy storage and to develop the related materials base for them, to design the next generation of energy storage devices.
These new modes include a) energy storage by desolvation and matrix change, b) reversible high energy bulk structure transition, and c) metal-metal and metal-semiconductor heterojunction interface effects.
New modes will be carefully analysed with advanced electrochemical techniques, including quartz crystal microbalance, differential electrochemical mass spectroscopy, combined with in situ X-ray and Raman spectroscopy for instance, to gain a precise physico-chemical picture of the operation principles. In operando high resolution electron microscopy and EELS will complete the molecular understanding of the processes.

Régimen de financiación

ERC-SyG - Synergy grant

Institución de acogida

MAX-PLANCK-GESELLSCHAFT ZUR FORDERUNG DER WISSENSCHAFTEN EV
Aportación neta de la UEn
€ 2 990 937,50
Dirección
HOFGARTENSTRASSE 8
80539 Munchen
Alemania

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Región
Bayern Oberbayern München, Kreisfreie Stadt
Tipo de actividad
Research Organisations
Enlaces
Coste total
€ 2 990 937,50

Beneficiarios (3)