Memristive biosensors for PSA-IgM detection
Memristive biosensors for PSA-IgM detection
Prostate cancer is the most common cancer among men except for skin cancer, and the detection at early stages is crucial. In the present work, nanofabricated memristive biosensors are subjected to surface bio-modification targeting at prostate-specific antigen (PSA) IgM detection. The electrical response of the nanofabricated devices examined before and after the bio-modification achieves a label-free detection for three biomarker concentrations. The presence of biomolecules linked to the surface of the nanostructures is detected by a voltage gap appearing in the memristive electrical characteristics. Enzyme-linked immunosorbent assay methodology is further applied to verify the efficiency of the application of diverse biomarker concentrations on the surface. Scanning electron microscopy shows details on the morphology of the nanofabricated structures before and after the bio-modification, and confocal microscopy is implemented to obtain a 3D fluorescent signal distribution of the biomolecules. The system shows the potential for applications in molecular diagnostics and for implementation targeting at the early detection of the prostate cancer disease.
Biosensor, ELISA, Memristive behavior, PSA-IgM, Silicon nanowire arrays
189-195
Tzouvadaki, I.
a1025ec1-7606-453d-bc71-1f732a4c1f78
Parrozzani, C.
f5a06550-630c-42e7-a734-03a42a54ad5f
Gallotta, A.
e3f4228c-c0cf-412a-a117-a2be73c0ad11
De Micheli, G.
23af8e38-a795-4edf-b551-9094fdb781e0
Carrara, S.
0001b4c5-1f62-4789-b0e9-5a187f58b893
1 December 2015
Tzouvadaki, I.
a1025ec1-7606-453d-bc71-1f732a4c1f78
Parrozzani, C.
f5a06550-630c-42e7-a734-03a42a54ad5f
Gallotta, A.
e3f4228c-c0cf-412a-a117-a2be73c0ad11
De Micheli, G.
23af8e38-a795-4edf-b551-9094fdb781e0
Carrara, S.
0001b4c5-1f62-4789-b0e9-5a187f58b893
Tzouvadaki, I., Parrozzani, C., Gallotta, A., De Micheli, G. and Carrara, S.
(2015)
Memristive biosensors for PSA-IgM detection.
BioNanoScience, 5 (4), .
(doi:10.1007/s12668-015-0179-4).
Abstract
Prostate cancer is the most common cancer among men except for skin cancer, and the detection at early stages is crucial. In the present work, nanofabricated memristive biosensors are subjected to surface bio-modification targeting at prostate-specific antigen (PSA) IgM detection. The electrical response of the nanofabricated devices examined before and after the bio-modification achieves a label-free detection for three biomarker concentrations. The presence of biomolecules linked to the surface of the nanostructures is detected by a voltage gap appearing in the memristive electrical characteristics. Enzyme-linked immunosorbent assay methodology is further applied to verify the efficiency of the application of diverse biomarker concentrations on the surface. Scanning electron microscopy shows details on the morphology of the nanofabricated structures before and after the bio-modification, and confocal microscopy is implemented to obtain a 3D fluorescent signal distribution of the biomolecules. The system shows the potential for applications in molecular diagnostics and for implementation targeting at the early detection of the prostate cancer disease.
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e-pub ahead of print date: 28 August 2015
Published date: 1 December 2015
Keywords:
Biosensor, ELISA, Memristive behavior, PSA-IgM, Silicon nanowire arrays
Identifiers
Local EPrints ID: 431534
URI: http://eprints.soton.ac.uk/id/eprint/431534
ISSN: 2191-1630
PURE UUID: 961b9c9a-1474-41df-8206-7dae6424f601
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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:
C. Parrozzani
Author:
A. Gallotta
Author:
G. De Micheli
Author:
S. Carrara
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