Summary
In this Proof-of-Concept project we will demonstrate the practical feasibility of a fundamentally novel transparent and
flexible Li-organic thin-film microbattery. The strong basis for the project is the new hybrid Li-organic electrode materials
discovered in the PI's ERC Advanced Grant Project “Molecular-Layer-Engineered Inorganic-Organic Hybrid Materials
(LAYERENG-HYBMAT)”. These hybrid thin-film materials are fabricated by the combined atomic/molecular layer deposition
(ALD/MLD) technique which uniquely allows for fabrication of highly conformal thin-film coatings on various flexible,
sensitive, functional and/or nanostructured surfaces. Within this PoC project we will (1) design and construct an actual
optimized all-ALD/MLD Li-organic battery cell, (2) confirm its optical transparency and mechanical flexibility as expected,
(3) identify the most potential applications for this new type of 3D thin-film microbattery, (4) assess its real-life business
opportunities, and (5) build up a network of academic and industrial collaborators for the further advancement of the novel
technology.
flexible Li-organic thin-film microbattery. The strong basis for the project is the new hybrid Li-organic electrode materials
discovered in the PI's ERC Advanced Grant Project “Molecular-Layer-Engineered Inorganic-Organic Hybrid Materials
(LAYERENG-HYBMAT)”. These hybrid thin-film materials are fabricated by the combined atomic/molecular layer deposition
(ALD/MLD) technique which uniquely allows for fabrication of highly conformal thin-film coatings on various flexible,
sensitive, functional and/or nanostructured surfaces. Within this PoC project we will (1) design and construct an actual
optimized all-ALD/MLD Li-organic battery cell, (2) confirm its optical transparency and mechanical flexibility as expected,
(3) identify the most potential applications for this new type of 3D thin-film microbattery, (4) assess its real-life business
opportunities, and (5) build up a network of academic and industrial collaborators for the further advancement of the novel
technology.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/780041 |
| Start date: | 01-09-2017 |
| End date: | 31-08-2018 |
| Total budget - Public funding: | 150 000,00 Euro - 150 000,00 Euro |
Cordis data
Original description
In this Proof-of-Concept project we will demonstrate the practical feasibility of a fundamentally novel transparent andflexible Li-organic thin-film microbattery. The strong basis for the project is the new hybrid Li-organic electrode materials
discovered in the PI's ERC Advanced Grant Project “Molecular-Layer-Engineered Inorganic-Organic Hybrid Materials
(LAYERENG-HYBMAT)”. These hybrid thin-film materials are fabricated by the combined atomic/molecular layer deposition
(ALD/MLD) technique which uniquely allows for fabrication of highly conformal thin-film coatings on various flexible,
sensitive, functional and/or nanostructured surfaces. Within this PoC project we will (1) design and construct an actual
optimized all-ALD/MLD Li-organic battery cell, (2) confirm its optical transparency and mechanical flexibility as expected,
(3) identify the most potential applications for this new type of 3D thin-film microbattery, (4) assess its real-life business
opportunities, and (5) build up a network of academic and industrial collaborators for the further advancement of the novel
technology.
Status
CLOSEDCall topic
ERC-2017-PoCUpdate Date
27-04-2024
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