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Flexible and highly selective NO2 gas sensor based on direct-ink-writing of eco-friendly graphene oxide for smart wearable application

Junaid Ahmad Khan, Vratislav Režo, Tomáš Vincze, Martin Weis, Syed Abdul Momin, Nazek El‐Atab, M. Mariatti

2024Chemosphere26 citationsDOIOpen Access PDF

Abstract

Nitrogen dioxide (NO 2 ) is a major cause of respiratory disorders in outdoor and indoor environments. Real-time NO 2 monitoring using nonintrusive wearable devices can save lives and provide valuable health data. This study reports a room-temperature, wearable, and flexible smart NO 2 gas sensor fabricated via cost-effective printing technology on a polyimide substrate. The sensor uses alkali lignin with edge-oxidised graphene oxide (EGO-AL) ink, demonstrating a sensitivity of 1.70% ppm⁻ 1 and a detection limit of 12.70 ppb, with excellent selectivity towards NO 2 . The high sensing properties are attributed to labile oxygen functional groups from GO and alkali lignin, offering abundant interacting sites for NO 2 adsorption and electron transfer. The sensor fully recovers to the baseline after heat treatment at 150 °C, indicating its reusability. Integration into lab coats showcased its wearable application, utilising a flexible printed circuit board to wirelessly alert the wearer via cell phone to harmful NO 2 levels (>3 ppm) in the environment. This smart sensing application underscores the potential for practical, real-time air quality monitoring, personal safety enhancement, and health management. • NO 2 gas sensor fabricated via DIW method using eco-friendly EGO-AL ink. • Sensor exhibit high sensitivity (1.70 % ppm −1 ) and low detection limit (12.70 ppb). • Excellent reusability with full recovery after heat treatment at 150 °C. • Wireless data transmission via Bluetooth/Wi-Fi for real-time monitoring. • Integrated into lab coat for smart wearable safety applications.

Topics & Concepts

GrapheneWearable computerEnvironmentally friendlyInkwellOxideNanotechnologyWearable technologyMaterials scienceComputer scienceChemistryEmbedded systemOrganic chemistryComposite materialEcologyBiologyGas Sensing Nanomaterials and SensorsAdvanced Sensor and Energy Harvesting MaterialsGraphene research and applications
Flexible and highly selective NO2 gas sensor based on direct-ink-writing of eco-friendly graphene oxide for smart wearable application | Litcius