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Quantum Super-Exchange Energy Storage Platform

Project description

Breakthrough battery architecture enables programming charge carrier dynamics

Batteries are a major driving force behind the EU’s goal to be climate neutral by 2050. In practice, batteries suffer from real-performance issues like fire, explosion, and the number of times they can be charged and discharged without being degraded. These issues are mainly associated with the complex and uncontrollable microscopic electron and ion interactions at dynamic interfaces, and chaotic charge carrier migration. The EU-funded QUEEN project aims to tackle these problems and transform battery technology by introducing control to charge carrier dynamics. Researchers will develop a quantum super-exchange energy storage platform with atomically precise fabrication of 2D-hybrid nanomaterials to transform them into programmable matter. The project also promises to unlock the full potential of 2D materials in biology, flexible electronics and spintronics.

Objective

Batteries are a major driving force behind EU’s goal to be climate neutral by 2050–with net-zero greenhouse gas emissions. However, all batteries suffer from severe performance and safety challenges (fire and explosion) and fast-charging limitations due to two fundamental challenges:1) The complex and uncontrollable microscopic electron and ion interactions at dynamic interfaces; 2) The highly in-homogeneous electric field inside the battery cell that leads to chaotic carrier migration. In this project, I tackle these problems by developing a quantum super-exchange energy storage platform (QUEEN), which enables atomically precise fabrication of 2D hybrid nanomaterials effectively transforming them into programable matter. In QUEEN, my aim is 1) Developing a quantum arc pen electro pulse lithography (Q-ARC) technique including a nanoscale “pen” (ARC-PEN) with uniquely modified tips (special gas inlets/outlets) to remove/replace targeted atoms with great precision. 2) Using Q-ARC techniques, investigating novel patterns to fabricate an in-plane hybrid 2D material system with band gap engineering, Coulomb blockage and ballistic transport. 3) Leveraging QUEEN’s near atom-by-atom fabrication, to create an in-situ testing platform to investigate quantum phenomena at complex interfaces. QUEEN will enable the development of superior battery architectures with i) precise and programmable control carrier transport, ii) groundbreakingly thin battery operation distances (2nm-5nm between anode and cathode), iii) very high mobility/instantaneous ion transport, iv) blueprint for extra charge storage mechanism. My multidisciplinary background in advanced device engineering and physics will enable me to accomplish the ambitious goals of this project, which will transform battery technology going well beyond the state of art by introducing control to carrier dynamics. Furthermore, QUEEN unlocks the potential for 2D materials in areas like biology, flexible electronics and spintronic.

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Topic(s)

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Call for proposal

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(opens in new window) ERC-2021-STG

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Host institution

ISTANBUL TEKNIK UNIVERSITESI
Net EU contribution

Net EU financial contribution. The sum of money that the participant receives, deducted by the EU contribution to its linked third party. It considers the distribution of the EU financial contribution between direct beneficiaries of the project and other types of participants, like third-party participants.

€ 1 424 625,00
Address
AYAZAGA KAMPUSU
34469 Maslak, Istanbul
Türkiye

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Region
İstanbul İstanbul İstanbul
Activity type
Higher or Secondary Education Establishments
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Total cost

The total costs incurred by this organisation to participate in the project, including direct and indirect costs. This amount is a subset of the overall project budget.

€ 1 424 625,00

Beneficiaries (1)

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