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An efficient electronic measurement interface for memristive biosensors

An efficient electronic measurement interface for memristive biosensors
An efficient electronic measurement interface for memristive biosensors

Reducing sensing time is one major concern in clinical diagnostics. In the present work, a robust measurement system is developed aiming at the faster and easier signal acquisition of memristive biosensors. Sensing chips consisting of nanofabricated silicon wires exhibiting memristive electrical response and metallic extension electrodes allowing an integrated measurement procedure are designed and fabricated. Furthermore, the electrical response of these particular nanofabricated structures is for the first time acquired using an embedded-system-based measurement front-end. The suggested prototype significantly simplifies the measurement procedure and provides conveniently the response signal of the devices. Such optimized co-design of memristive biosensors with electronic platforms hold great promise for PoC (point-of-care) applications.

Biosensor, Embedded systems, Memristive devices, Metal electrodes, Silicon nanofabricated wires
IEEE
Naus, Sebastien
c2259f76-28f6-4169-aba9-6b00788bedf6
Tzouvadaki, Ioulia
a1025ec1-7606-453d-bc71-1f732a4c1f78
Gaillardon, Pierre Emmanuel
3e653598-306d-44d1-a98a-eddd3648231e
Biscontini, Armando
67056ff9-e51f-499a-9c58-363fddc1b409
De Micheli, Giovanni
23af8e38-a795-4edf-b551-9094fdb781e0
Carrara, Sandro
0001b4c5-1f62-4789-b0e9-5a187f58b893
Naus, Sebastien
c2259f76-28f6-4169-aba9-6b00788bedf6
Tzouvadaki, Ioulia
a1025ec1-7606-453d-bc71-1f732a4c1f78
Gaillardon, Pierre Emmanuel
3e653598-306d-44d1-a98a-eddd3648231e
Biscontini, Armando
67056ff9-e51f-499a-9c58-363fddc1b409
De Micheli, Giovanni
23af8e38-a795-4edf-b551-9094fdb781e0
Carrara, Sandro
0001b4c5-1f62-4789-b0e9-5a187f58b893

Naus, Sebastien, Tzouvadaki, Ioulia, Gaillardon, Pierre Emmanuel, Biscontini, Armando, De Micheli, Giovanni and Carrara, Sandro (2017) An efficient electronic measurement interface for memristive biosensors. In IEEE International Symposium on Circuits and Systems: From Dreams to Innovation, ISCAS 2017 - Conference Proceedings. IEEE.. (doi:10.1109/ISCAS.2017.8050685).

Record type: Conference or Workshop Item (Paper)

Abstract

Reducing sensing time is one major concern in clinical diagnostics. In the present work, a robust measurement system is developed aiming at the faster and easier signal acquisition of memristive biosensors. Sensing chips consisting of nanofabricated silicon wires exhibiting memristive electrical response and metallic extension electrodes allowing an integrated measurement procedure are designed and fabricated. Furthermore, the electrical response of these particular nanofabricated structures is for the first time acquired using an embedded-system-based measurement front-end. The suggested prototype significantly simplifies the measurement procedure and provides conveniently the response signal of the devices. Such optimized co-design of memristive biosensors with electronic platforms hold great promise for PoC (point-of-care) applications.

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More information

Published date: 25 September 2017
Venue - Dates: 50th IEEE International Symposium on Circuits and Systems, ISCAS 2017, , Baltimore, United States, 2017-05-28 - 2017-05-31
Keywords: Biosensor, Embedded systems, Memristive devices, Metal electrodes, Silicon nanofabricated wires

Identifiers

Local EPrints ID: 431533
URI: http://eprints.soton.ac.uk/id/eprint/431533
PURE UUID: 2b30c2e2-41ff-4c50-bfad-d60cf25e1ebe

Catalogue record

Date deposited: 07 Jun 2019 16:30
Last modified: 17 Mar 2024 12:27

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Contributors

Author: Sebastien Naus
Author: Ioulia Tzouvadaki
Author: Pierre Emmanuel Gaillardon
Author: Armando Biscontini
Author: Giovanni De Micheli
Author: Sandro Carrara

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