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Active HORIZON European Commission

3D Biofabricated high-perfoRmance dna-carbon nanotube dIgital electroniCKS

€3.57M EUR

Funder European Commission
Recipient Organization Fondazione Istituto Italiano Di Tecnologia
Country Italy
Start Date May 01, 2023
End Date Apr 30, 2026
Duration 1,095 days
Number of Grantees 12
Roles Participant; Coordinator; Associated Partner
Data Source European Commission
Grant ID 101099125
Grant Description

Silicon-based CMOS technology is approaching its performance limits, but the demand for more powerful computers driven by rapid advances in applications such as the Internet of Things, big data and artificial intelligence (AI) remains. The discovery of various nanomaterials provides new opportunities to further develop information processing technology.

Carbon nanotubes (CNTs) have, in particular, demonstrated excellent properties as a channel material in transistors.

Computers based on CNT field-effect transistors (FETs) have been theoretically predicted to provide a power-performance improvement of ten times over computers based on Si-CMOS technology.

However, the fabrication of high-performance CNT-nanoelectronics, and the realization of the full potential of CNTs, is highly challenging.

A technological revolution would be a reliable approach to fabricate a new family of CNT-based devices that could enable aligned arrangement of the nanotubes avoiding the critical steps related to nanolithography.

In particular, biofabrication using DNA-templated CNT arrays FETs has been demonstrated to further scale the alignment of CNTs within the FETs well beyond standard lithographic feasibility. 3D-BRICKS will raise this concept of integrated self-assembly CNT-nanocircuits to a completely new level by moving towards the third dimension.

Indeed, the versatility of DNA nanotechnology will be the root for conceiving 3-dimensional (3D) CNT-FETs and CNT-nonvolatile memories.

DNA nanotechnology will also enable to complement the CNT deposition with metallic connections, hence realizing a working circuit.

This will reduce the foot-print of the final device while enhancing its efficiency, hence providing a breakthrough solution to realize the next-generation nanoelectronics.

Furthermore, automated droplet-based CNT-DNA assembly, selective sorting and deposition based on assembly quality, will be an enabling technology towards upscaling production.

Our approach will enable the production of scalable biotemplated electronics that can be extended to multiple applications such as metamaterials, sensors, optoelectronics, and others.

All Grantees

Universiteit Antwerpen; Fundacio Institut Catala de Nanociencia I Nanotecnologia; University of Hamburg; Universitaet Leipzig; Fondazione Istituto Italiano Di Tecnologia; Karlsruher Institut Fuer Technologie; University of Fribourg; Cnt Innovation; Kerr S.R.L; Universite de Fribourg; Universita Degli Studi Di Modena E Reggio Emilia; Tallinna Tehnikaülikool

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