Resistance impact by long connections on electrical behavior of integrated memristive biosensors
Resistance impact by long connections on electrical behavior of integrated memristive biosensors
Integration of nanowire structures in more complex platforms combining microfluidics and multiplexing aspects may complex the electrical readout process. In the present work, fabrication of Aluminium (Al) lines for electrical connections is attempted followed by their integration to nanofabricated Memristive Biosensors that target at the label-free detection of cancer biomarkers. In addition a computational study is carried out investigating the impact of the resistance introduced by the additional Al connections to the electrical response of the Memristive Biosensors. Overall, the present study explores the restrictions and the possibilities of the Memristive Biosensors' integration with additional elements that would allow effective readout in more complex configurations.
Aluminum connections, Biosensor, Memristor, Silicon Nanowire
385-388
Tzouvadaki, I.
a1025ec1-7606-453d-bc71-1f732a4c1f78
Vallero, A.
cad64cb6-55f8-46b7-9fe2-c78282571385
Puppo, F.
8e2bdc21-71ec-4625-bf7c-046c80fbd2f3
De Micheli, G.
23af8e38-a795-4edf-b551-9094fdb781e0
Carrara, S.
0001b4c5-1f62-4789-b0e9-5a187f58b893
29 July 2016
Tzouvadaki, I.
a1025ec1-7606-453d-bc71-1f732a4c1f78
Vallero, A.
cad64cb6-55f8-46b7-9fe2-c78282571385
Puppo, F.
8e2bdc21-71ec-4625-bf7c-046c80fbd2f3
De Micheli, G.
23af8e38-a795-4edf-b551-9094fdb781e0
Carrara, S.
0001b4c5-1f62-4789-b0e9-5a187f58b893
Tzouvadaki, I., Vallero, A., Puppo, F., De Micheli, G. and Carrara, S.
(2016)
Resistance impact by long connections on electrical behavior of integrated memristive biosensors.
In ISCAS 2016 - IEEE International Symposium on Circuits and Systems.
vol. 2016-July,
IEEE.
.
(doi:10.1109/ISCAS.2016.7527251).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Integration of nanowire structures in more complex platforms combining microfluidics and multiplexing aspects may complex the electrical readout process. In the present work, fabrication of Aluminium (Al) lines for electrical connections is attempted followed by their integration to nanofabricated Memristive Biosensors that target at the label-free detection of cancer biomarkers. In addition a computational study is carried out investigating the impact of the resistance introduced by the additional Al connections to the electrical response of the Memristive Biosensors. Overall, the present study explores the restrictions and the possibilities of the Memristive Biosensors' integration with additional elements that would allow effective readout in more complex configurations.
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More information
Published date: 29 July 2016
Venue - Dates:
2016 IEEE International Symposium on Circuits and Systems, ISCAS 2016, , Montreal, Canada, 2016-05-22 - 2016-05-25
Keywords:
Aluminum connections, Biosensor, Memristor, Silicon Nanowire
Identifiers
Local EPrints ID: 431531
URI: http://eprints.soton.ac.uk/id/eprint/431531
PURE UUID: 51a51ac9-ee9c-437b-8712-70d7b22fc74c
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Date deposited: 07 Jun 2019 16:30
Last modified: 16 Mar 2024 02:07
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Contributors
Author:
I. Tzouvadaki
Author:
A. Vallero
Author:
F. Puppo
Author:
G. De Micheli
Author:
S. Carrara
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