Comparative Study of Field-Effect Transistors Based on Graphene Oxide and CVD Graphene in Highly Sensitive NT-proBNP Aptasensors

• Published in: Biosensors (Basel) Vol. 14; no. 5; p. 215
• Main Authors: Kudriavtseva, Anastasiia, Jarić, Stefan, Nekrasov, Nikita, Orlov, Alexey V, Gadjanski, Ivana, Bobrinetskiy, Ivan, Nikitin, Petr I, Knežević, Nikola
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 26.04.2024
• Subjects: aptamer; Aptamers, Nucleotide - chemistry; Biochemical markers; Biomarkers; Biomarkers - analysis; Biosensing Techniques; Biosensors; Chemical vapor deposition; Comparative analysis; Comparative studies; Congestive heart failure; Electrodes; Equipment and supplies; Field effect transistors; field-effect transistor; Gold - chemistry; Graphene; graphene oxide; Graphite - chemistry; heart failure; Humans; Limit of Detection; Materials; Natriuretic Peptide, Brain; Parameter sensitivity; Peptide Fragments - analysis; Peptides; point-of-care diagnostic; Production costs; Saliva; Semiconductor devices; Sensors; Transistors, Electronic; Russia; United States > US; Spain; graphene oxide; heart failure; point-of-care diagnostic; field-effect transistor; aptamer; graphene
• ISSN: 2079-6374; 2079-6374
• DOI: 10.3390/bios14050215

Graphene-based materials are actively being investigated as sensing elements for the detection of different analytes. Both graphene grown by chemical vapor deposition (CVD) and graphene oxide (GO) produced by the modified Hummers' method are actively used in the development of biosensors. The production costs of CVD graphene- and GO-based sensors are similar; however, the question remains regarding the most efficient graphene-based material for the construction of point-of-care diagnostic devices. To this end, in this work, we compare CVD graphene aptasensors with the aptasensors based on reduced GO (rGO) for their capabilities in the detection of NT-proBNP, which serves as the gold standard biomarker for heart failure. Both types of aptasensors were developed using commercial gold interdigitated electrodes (IDEs) with either CVD graphene or GO formed on top as a channel of liquid-gated field-effect transistor (FET), yielding GFET and rGO-FET sensors, respectively. The functional properties of the two types of aptasensors were compared. Both demonstrate good dynamic range from 10 fg/mL to 100 pg/mL. The limit of detection for NT-proBNP in artificial saliva was 100 fg/mL and 1 pg/mL for rGO-FET- and GFET-based aptasensors, respectively. While CVD GFET demonstrates less variations in parameters, higher sensitivity was demonstrated by the rGO-FET due to its higher roughness and larger bandgap. The demonstrated low cost and scalability of technology for both types of graphene-based aptasensors may be applicable for the development of different graphene-based biosensors for rapid, stable, on-site, and highly sensitive detection of diverse biochemical markers.