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Computational study on the electrical behavior of silicon nanowire memristive biosensors

Computational study on the electrical behavior of silicon nanowire memristive biosensors
Computational study on the electrical behavior of silicon nanowire memristive biosensors

In this paper, a complete study is carried out investigating the relationship between the biosensing and the electrical characteristics of freestanding two-terminal Schottky-barrier silicon nanowires. This paper successfully reproduces computationally the electrical behavior obtained experimentally from the nanowire devices before and after the surface biomodification. Throughout modeling and simulations, this paper confirms that the experimental results obtained from the electrical characterization of bare two-terminal Schottky-barrier silicon nanowires present current-to-voltage characteristics fully equivalent to that of a pure memristor device, according to the literature. Furthermore, this paper shows that the voltage gap appearing in the current-to-voltage characteristics for nanowires with biomodified surface is related to capacitive effects due to minority carriers in the nanowire and it is also indicated that those effects are strongly affected by the concentration of antigens uptaken on the device surface. Overall, this paper confirms the implication of the memristive effect for biosensing applications and therefore, demonstrates the memristive biosensors.

Antigen uptake, Biosensor, Memristor, Schottky barrier, Silicon nanowire
1530-437X
6208-6217
Tzouvadaki, Ioulia
a1025ec1-7606-453d-bc71-1f732a4c1f78
Puppo, Francesca
8e2bdc21-71ec-4625-bf7c-046c80fbd2f3
Doucey, Marie Agnès
03b94196-bd10-4b32-853b-e6ac44cc065c
De Micheli, Giovanni
23af8e38-a795-4edf-b551-9094fdb781e0
Carrara, Sandro
0001b4c5-1f62-4789-b0e9-5a187f58b893
Tzouvadaki, Ioulia
a1025ec1-7606-453d-bc71-1f732a4c1f78
Puppo, Francesca
8e2bdc21-71ec-4625-bf7c-046c80fbd2f3
Doucey, Marie Agnès
03b94196-bd10-4b32-853b-e6ac44cc065c
De Micheli, Giovanni
23af8e38-a795-4edf-b551-9094fdb781e0
Carrara, Sandro
0001b4c5-1f62-4789-b0e9-5a187f58b893

Tzouvadaki, Ioulia, Puppo, Francesca, Doucey, Marie Agnès, De Micheli, Giovanni and Carrara, Sandro (2015) Computational study on the electrical behavior of silicon nanowire memristive biosensors. IEEE Sensors Journal, 15 (11), 6208-6217. (doi:10.1109/JSEN.2015.2456336).

Record type: Article

Abstract

In this paper, a complete study is carried out investigating the relationship between the biosensing and the electrical characteristics of freestanding two-terminal Schottky-barrier silicon nanowires. This paper successfully reproduces computationally the electrical behavior obtained experimentally from the nanowire devices before and after the surface biomodification. Throughout modeling and simulations, this paper confirms that the experimental results obtained from the electrical characterization of bare two-terminal Schottky-barrier silicon nanowires present current-to-voltage characteristics fully equivalent to that of a pure memristor device, according to the literature. Furthermore, this paper shows that the voltage gap appearing in the current-to-voltage characteristics for nanowires with biomodified surface is related to capacitive effects due to minority carriers in the nanowire and it is also indicated that those effects are strongly affected by the concentration of antigens uptaken on the device surface. Overall, this paper confirms the implication of the memristive effect for biosensing applications and therefore, demonstrates the memristive biosensors.

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More information

Accepted/In Press date: 7 July 2015
e-pub ahead of print date: 14 July 2015
Published date: 1 November 2015
Keywords: Antigen uptake, Biosensor, Memristor, Schottky barrier, Silicon nanowire

Identifiers

Local EPrints ID: 431535
URI: http://eprints.soton.ac.uk/id/eprint/431535
DOI: doi:10.1109/JSEN.2015.2456336
ISSN: 1530-437X
PURE UUID: 40b6aca7-08c8-4ac6-8ad8-2a0af73b8d11

Catalogue record

Date deposited: 07 Jun 2019 16:30
Last modified: 16 Mar 2024 02:07

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Contributors

Author: Ioulia Tzouvadaki
Author: Francesca Puppo
Author: Marie Agnès Doucey
Author: Giovanni De Micheli
Author: Sandro Carrara

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