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Cyclewise Operation of Printed MoS2 Transistor Biosensors for Rapid Biomolecule Quantification at Femtomolar Levels.
ACS Sensors 2017 Februrary 25
Field-effect transistors made from MoS2 and other emerging layered semiconductors have been demonstrated to be able to serve as ultrasensitive biosensors. However, such nanoelectronic sensors still suffer seriously from a series of challenges associated with the poor compatibility between electronic structures and liquid analytes. These challenges hinder the practical biosensing applications that demand rapid, low-noise, highly specific biomolecule quantification at femtomolar levels. To address such challenges, we study a cyclewise process for operating MoS2 transistor biosensors, in which a series of reagent fluids are delivered to the sensor in a time-sequenced manner and periodically set the sensor into four assay-cycle stages, including incubation, flushing, drying, and electrical measurement. Running multiple cycles of such an assay can acquire a time-dependent sensor response signal quantifying the reaction kinetics of analyte-receptor binding. This cyclewise detection approach can avoid the liquid-solution-induced electrochemical damage, screening, and nonspecific adsorption to the sensor and therefore improves the transistor sensor's durability, sensitivity, specificity, and signal-to-noise ratio. These advantages in combination with the inherent high sensitivity of MoS2 biosensors allow for rapid biomolecule quantification at femtomolar levels. We have demonstrated the cyclewise quantification of Interleukin-1β in pure and complex solutions (e.g., serum and saliva) with a detection limit of ∼1 fM and a total detection time ∼23 min. This work leverages the superior properties of layered semiconductors for biosensing applications and advances the techniques toward realizing fast real-time immunoassay for low-abundance biomolecule detection.
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