Precise and rapid point-of-care quantification of albumin levels in unspiked blood using organic field-effect transistors

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Abstract

Nanowire-based field-effect transistors (FETs) are widely used to detect biomolecules precisely. However, the fabrication of such devices involves complex integration procedures of nanowires into the device and most are not easily scalable. In this work, we report a straightforward fabrication approach that utilizes the grain boundaries of the semiconducting film of organic FETs to fabricate biosensors for the detection of human serum albumin (HSA) with an enhanced sensitivity and detection range. We used trichromophoric pentapeptide (TPyAlaDo-Leu-ArTAA-Leu-TPyAlaDo, TPP) as a receptor molecule to precisely estimate the concentration of HSA protein in human blood. Bi-layer semiconductors (pentacene and TPP) were used to fabricate the OFET, where the pentacene molecule acted as a conducting channel and TPP acted as a receptor molecule. This approach of engineering the diffusion of receptor molecules into the grain boundaries is crucial in developing OFET-based HSA protein sensors, which cover a considerable detection range from 1 pM to 1 mM in a single device. The point-of-care detection in unspiked blood samples was confirmed at 4.2 g dL−1, which is similar to 4.1 g dL−1 measured using a pathological procedure.

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Mandal, A., Mandal, S., Mallik, S., Mondal, S., Bag, S. S., & Goswami, D. K. (2023). Precise and rapid point-of-care quantification of albumin levels in unspiked blood using organic field-effect transistors. Nanoscale Advances, 6(2), 630–637. https://doi.org/10.1039/d3na00564j

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