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NANOSTACKS

financed

Nanostack printing for materials research

When compared to fossil fuels only one decisive disadvantage remains for electricity from solar cells and wind mills, namely the difficulty to store this energy in very large quantities and in high energy density. State of the art... see more

31/07/2024

KIT

4M€

Project Budget: 4M€

Project leader

KARLSRUHER INSTITUT FUER TECHNOLOGIE No se ha especificado una descripción o un objeto social para esta compañía.

TRL 4-5

PARTICIPATION DEPralty Sin fecha límite de participación.

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Financing granted El organismo H2020 notifico la concesión del proyecto The day 2024-07-31

FETPROACT-EIC-05-2019: FET Proactive: emerging paradigms a... Specific Challenge:To explore and consolidate a new technological direction in order to put it firml...

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Este proyecto no cuenta con búsquedas de partenariado abiertas en este momento.

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6 Participantes

KIT

1.40M€ | Leader

THADER BIOTECHNOLOGY

TECNOLOGÍA NAVARRA DE NANOPR...

474.38K€ | participant

PPP

381.00K€ | participant

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Project duration: 48 months Date Start: 2020-07-03
End date: 2024-07-31

Project leader

KARLSRUHER INSTITUT FUER TECHNOLOGIE No se ha especificado una descripción o un objeto social para esta compañía.

TRL 4-5

Project Budget 4M€

participation deadline Sin fecha límite de participación.

Project description When compared to fossil fuels only one decisive disadvantage remains for electricity from solar cells and wind mills, namely the difficulty to store this energy in very large quantities and in high energy density. State of the art batteries have a low energy density, and, in addition, cannot handle the needed quantities of energy. In principle, fuel cells could store huge quantities of energy and in in high energy density, but these are not very efficient and, moreover, rely on expensive materials. We want to develop a novel screening method to find efficient fuel cells that rely on cheap materials. KIT developed a novel multi-material nano3D printer that generates ~40.000 nanostacks per glass slide with freely chosen sequential arrangements of printed nanolayers that are made of nanoparticles or organic materials. We want to use this robot to print conductors, isolators, diodes, battery-, fuel cell-, and LED-materials, and then screen ~15.000 twin-nanostacks per glass slide for function. We will start with diodes that are made of a ZnO layer on top of ITO nanoparticles. When positioned in between two capacitor plates, an AC current will drive electrons unidirectional through all of these nanostack-diodes from where they travel back through the adjacent twin nanostack. If this twin nanostack is a functional battery, reduced battery materials are identified in a scanner, while functional LED nanostacks identify themselves through emitted light. Functional LED- or battery-nanostacks will then be used to identify those nanostacks that work as a fuel cell. We think that this new method will advance materials research beyond the screening for novel energy materials.

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