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Selective Ion Sensing in Artificial Sweat Using Low‐Cost Reduced Graphene Oxide Liquid‐Gated Plastic Transistors

Rafael Furlan de Oliveira, Verónica Montes‐García, Pietro Antonio Livio, Marı́a Begoña González-Garcı́a, Pablo Fanjul‐Bolado, Stefano Casalini, Paolo Samorı́

2022Small29 citationsDOIOpen Access PDF

Abstract

Abstract Health monitoring is experiencing a radical shift from clinic‐based to point‐of‐care and wearable technologies, and a variety of nanomaterials and transducers have been employed for this purpose. 2D materials (2DMs) hold enormous potential for novel electronics, yet they struggle to meet the requirements of wearable technologies. Here, aiming to foster the development of 2DM‐based wearable technologies, reduced graphene oxide (rGO)‐based liquid‐gated transistors (LGTs) for cation sensing in artificial sweat endowed with distinguished performance and great potential for scalable manufacturing is reported. Laser micromachining is employed to produce flexible transistor test patterns employing rGO as the electronic transducer. Analyte selectivity is achieved by functionalizing the transistor channel with ion‐selective membranes (ISMs) via a simple casting method. Real‐time monitoring of K + and Na + in artificial sweat is carried out employing a gate voltage pulsed stimulus to take advantage of the fast responsivity of rGO. The sensors show excellent selectivity toward the target analyte, low working voltages (<0.5 V), fast (5–15 s), linear response at a wide range of concentrations (10 µ m to 100 m m ), and sensitivities of 1 µA/decade. The reported strategy is an important step forward toward the development of wearable sensors based on 2DMs for future health monitoring technologies.

Topics & Concepts

Materials scienceGrapheneTransistorNanotechnologyWearable computerTransducerOptoelectronicsWearable technologyNanomaterialsAnalyteElectronicsOxideVoltageComputer scienceElectrical engineeringEmbedded systemChemistryEngineeringPhysical chemistryMetallurgyAdvanced Sensor and Energy Harvesting MaterialsGas Sensing Nanomaterials and SensorsAnalytical Chemistry and Sensors
Selective Ion Sensing in Artificial Sweat Using Low‐Cost Reduced Graphene Oxide Liquid‐Gated Plastic Transistors | Litcius