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A microfluidic approach for the detection of uric acid through electrical measurement using an atomically thin MoS 2 field-effect transistor.

Md NasiruddinHiroki WaizumiTsuyoshi TakaokaZhipeng WangYasuyuki SainooMuhammad Shamim Al MamunAtsushi AndoMao FukuyamaAkihide HibaraTadahiro Komeda
Published in: The Analyst (2023)
There is a demand for biosensors working under in vivo conditions, which requires significant device size and endurance miniaturization in solution environments. We demonstrated the detection of uric acid (UA) molecules, a marker of diseases like gout, whose continuous monitoring is required in medical diagnosis. We used a field effect transistor (FET) composed of an atomically thin transition metal dichalcogenide (TMD) channel. The sensor detection was carried out in a solution environment, for which we protected the electrodes of the source and drain from the solution. A microfluidic channel controls the solution flow that can realize evaporation-free conditions and provide an accurate concentration and precise measurement. We detected a systematic change of the drain current with the concentration of the UA in isopropyl alcohol (IPA) solvent with a detection limit of 60 nM. The sensor behavior is reversible, and the drain current returns to its original value when the channel is washed with pure solvent. The results demonstrate the feasibility of applying the MoS 2 -FET device to UA detection in solution, suggesting its possible use in the solution environment.
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