Indium-tin-oxide thin film transistor biosensors for label-free detection of avian influenza virus H5N1

As continuous outbreak of avian influenza (AI) has become a threat to human health, economic development and social stability, it is urgently necessary to detect the highly pathogenic avian influenza H5N1 virus quickly. In this study, we fabricated indium-tin-oxide thin-film transistors (ITO TFTs) on a glass substrate for the detecting of AI H5N1. The ITO TFT is fabricated by a one-shadow-mask process in which a channel layer can be simultaneously self-assembled between ITO source/drain electrodes during magnetron sputtering deposition. Monoclonal anti-H5N1 antibodies specific for AI H5N1 virus were covalently immobilized on the ITO channel by (3-glycidoxypropyl)trimethoxysilane. The introduction of target AI H5N1 virus affected the electronic properties of the ITO TFT, which caused a change in the resultant threshold voltage (VT) and field-effect mobility. The changes of ID–VG curves were consistent with an n-type field effect transistor behavior affected by nearby negatively charged AI H5N1 viruses. The transistor based sensor demonstrated high selectivity and stability for AI H5N1 virus sensing. The sensor showed linear response to AI H5N1 in the concentrations range from 5 × 10−9 g mL−1 to 5 × 10−6 g mL−1 with a detection limit of 0.8 × 10−10 g mL−1. Moreover, the ITO TFT biosensors can be repeatedly used through the washing processes. With its excellent electric properties and the potential for mass commercial production, ITO TFTs can be promising candidates for the development of label-free biosensors.

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► A highly selective label-free biosensor is established based on indium-tin-oxide thin-film transistors (ITO TFTs).
► AI H5N1 virus was successfully detected through shift in threshold voltage and field-effect mobility of ITO TFT.
► The ITO TFT is applied in biosensor for the first time and shows good reusability and stability.
► Fabrication of the platform is simple with low cost, which is suitable for mass commercial production.