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Extended gate field-effect-transistor for sensing cortisol stress hormone

Shokoofeh Sheibani, Luca Capua, Sadegh Kamaei, Sayedeh Shirin Afyouni Akbari, Junrui Zhang, Hoël Guérin, Adrian M. Ionescu

2021Communications Materials152 citationsDOIOpen Access PDF

Abstract

Cortisol is a hormone released in response to stress and is a major glucocorticoid produced by adrenal glands. Here, we report a wearable sensory electronic chip using label-free detection, based on a platinum/graphene aptamer extended gate field effect transistor (EG-FET) for the recognition of cortisol in biological buffers within the Debye screening length. The device shows promising experimental features for real-time monitoring of the circadian rhythm of cortisol in human sweat. We report a hysteresis-free EG-FET with a voltage sensitivity of the order of 14 mV/decade and current sensitivity up to 80% over the four decades of cortisol concentration. The detection limit is 0.2 nM over a wide range, between 1 nM and 10 µM, of cortisol concentrations in physiological fluid, with negligible drift over time and high selectivity. The dynamic range fully covers those in human sweat. We propose a comprehensive analysis and a unified, predictive analytical mapping of current sensitivity in all regimes of operation.

Topics & Concepts

TransistorHysteresisField-effect transistorGlucocorticoidSensitivity (control systems)Circadian rhythmMaterials scienceBiosensorOptoelectronicsEndocrinologyElectronic engineeringMedicineVoltageNanotechnologyPhysicsCondensed matter physicsElectrical engineeringEngineeringAdvanced Sensor and Energy Harvesting MaterialsAnalytical Chemistry and SensorsMechanical and Optical Resonators