On chip efficient storage of electrical energy with negative super capacitance i...
On chip efficient storage of electrical energy with negative super capacitance in 2D material systems
We propose the combination of two performance boosters: (i) negative capacitance principle, exploiting ferroelectricity in doped high-k dielectrics, as developed and validated in 2D devices of our ERC Advanced grant Millitech, an...
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Información proyecto N-Supercap
Duración del proyecto: 27 meses
Fecha Inicio: 2021-02-26
Fecha Fin: 2023-05-31
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Descripción del proyecto
We propose the combination of two performance boosters: (i) negative capacitance principle, exploiting ferroelectricity in doped high-k dielectrics, as developed and validated in 2D devices of our ERC Advanced grant Millitech, and, (ii) 2D graphene electrodes to enhance the performance of supercapacitors in on-chip 2D material systems, in an innovative device called N-supercap. While negative capacitance was until now explored mainly for digital and analog low power electronics, we propose to exploit NC in ferroelectric/dielectric/2D capacitors for on-chip energy storage to support autonomous sensory nodes. This will result in a versatile energy storage systems for IoT Edge AI systems, to enable a large scale deployment in tens of billions without maintenance costs, in a scalable and eco-friendly technology. The proposed PoC will serve as first step in the creation of startup that will aim at using such N-supercaps in various IoT node applications in environmental, industrial and healthcare monitoring. We have set a team of experts to exploit this technological breakthrough into the creation of a startup, based on a road to commercialization.