Attomolar detection of hepatitis C virus core protein powered by molecular antenna-like effect in a graphene field-effect aptasensor

Irene Palacio*, Miguel Moreno, Almudena Náñez, Agnes Purwidyantri, Telma Domingues, Patrícia D. Cabral, Jérôme Borme, Marzia Marciello, Jesús Ignacio Mendieta-Moreno, Beatriz Torres-Vázquez, José Ignacio Martínez, María Francisca López, Mar García-Hernández, Luis Vázquez, Pavel Jelínek, Pedro Alpuim*, Carlos Briones*, José Ángel Martín-Gago*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

16 Citations (Scopus)
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Abstract

Biosensors based on graphene field-effect transistors have become a promising tool for detecting a broad range of analytes. However, their performance is substantially affected by the functionalization protocol. In this work, we use a controlled in-vacuum physical method for the covalent functionalization of graphene to construct ultrasensitive aptamer-based biosensors (aptasensors) able to detect hepatitis C virus core protein. These devices are highly specific and robust, achieving attomolar detection of the viral protein in human blood plasma. Such an improved sensitivity is rationalized by theoretical calculations showing that induced polarization at the graphene interface, caused by the proximity of covalently bound molecular probe, modulates the charge balance at the graphene/aptamer interface. This charge balance causes a net shift of the Dirac cone providing enhanced sensitivity for the attomolar detection of the target proteins. Such an unexpected effect paves the way for using this kind of graphene-based functionalized platforms for ultrasensitive and real-time diagnostics of different diseases.
Original languageEnglish
Article number115006
JournalBiosensors and Bioelectronics
Volume222
Early online date18 Dec 2022
DOIs
Publication statusPublished - Feb 2023
Externally publishedYes

Keywords

  • Graphene,FET-biosensors,Aptamers,Covalent functionalization,HCV

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